The following information is also available:
infile,f,a,"ae703029010.att",,,"input attitude file name" outfile,f,a,"ae703029010.att.tmp",,,"output attitude file name" orbit,f,a,"ae703029010.orb",,,"orbit file name" hkfile,f,a,"ae703029010.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 'ae703029010.att'
OUTFILE 'ae703029010.att.tmp'
ORBIT 'ae703029010.orb'
HKFILE 'ae703029010.hk'
HK_TIME_MARGIN 60.0 (s)
CLOBBER YES
aste_orbit: reading 'ae703029010.orb[EXTNAME=PAR_ORBIT,EXTVER=0]' ...
nrow=34566, nkp=30241, tstart=267148801.0, tstop=268963201.0
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae703029010.hk'
aste_gethk-2.5: t=267974007.019 < TSTART=268006980.359 for 'HK_XIS_RAD6_T1_CAL' in 'ae703029010.hk'
aeattcor: INFO: TSTART=268006980.4 for ae703029010.hk
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae703029010.hk'
aste_gethk-2.5: found 'HK_XIS_RAD8_T1_CAL' at hdu=3, col=138 in 'ae703029010.hk'
aste_gethk-2.5: t=268190709.115 > TSTOP=268190707.209 for 'HK_XIS_RAD6_T1_CAL'
aeattcor: INFO: TSTOP=268190707.2 for ae703029010.hk
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae703029010.hk'
NUM_CORR = 264622 / number of corrected Euler angles
AVG_LAMB = 24.3311 / average ecliptic longitude (deg)
AVG_BETA = +24.4758 / average ecliptic latitude (deg)
AVG_XOFF = -24.7354 / average DETX offset (pixel)
AVG_YOFF = 6.2371 / average DETY offset (pixel)
SGM_XOFF = 1.4683 / 1 sigma DETX offset standard deviation (pixel)
SGM_YOFF = 6.6012 / 1 sigma DETY offset standard deviation (pixel)
Event... 1 (0)
aeattcor: INFO: created 'ae703029010.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 4.971 1.301 6.272 99.70
(others) 0.010 0.009 0.019 0.30
--------------------------------------------------------------------------
TOTAL 4.981 1.310 6.291 100.00
-> aeattcor successful for ae703029010.att.attitude,f,a,"ae703029010.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 'ae703029010.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=268006975.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=268190709.0
aste_aspect version 1.8
aspecting attitude: ae703029010.att
TELESCOP='SUZAKU', OBJECT='MRK 348', (RA,DEC)=(12.1963, 31.9569)
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: 267974007.019307 268201497.988603 227490.969296
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-28 13:13:26 (54645.55099559)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-01 04:24:56 (54648.18399292)
aspecting START STOP dT: 268006975.000000 268190709.000000 183734.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-28 22:22:54 (54645.93256944)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-01 01:25:08 (54648.05912037)
averaging attitude in 60 sec sampling, 3063 points
Sample Time : 60.0 s Number of Accept / Sample : 3063 / 3063
TIME START STOP TELAPSE (s) : 268006975.0 268190709.0 183734.0
START DATE TIME in UTC (MJD): 2008-06-28 22:22:54 (54645.93256944)
STOP DATE TIME in UTC (MJD): 2008-07-01 01:25:08 (54648.05912037)
Mean [MEDIAN] Euler angles : 12.191108 58.036421 18.116400
RA DEC SUN ANGLE
Mean Sun position (deg) : 99.215437 23.175083
Mean aberration (arcsec) : -1.856341 -9.780851
Mean satellite X-axis (deg) : 43.907983 -53.738664 90.449270
Mean satellite Y-axis (deg) : 112.017022 15.295896 14.415051
Mean satellite Z-axis (deg) : 12.191108 31.963579 75.592256
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 12.191108 31.963579 71.883600
Average 12.191886 31.963376 71.883600
Minimum 12.185803 31.941685 71.876113
Maximum 12.201528 31.966743 71.890025 1.341082
Sigma (RMS) 0.002949 0.002235 0.001244 0.205496
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '703029010' / Observation identification string
OBSERVER= 'VALENTINA BRAITO' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'MRK 348 ' / name of observed object
RA_OBJ = 12.1963 / planned target R.A.(deg)
DEC_OBJ = 31.9569 / planned target DEC.(deg)
RA_NOM = 12.1911 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 31.9636 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 71.8836 / nominal position angle from north to DETY(deg)
MEAN_EA1= 12.191107631588 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 58.036421227811 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 18.116400134728 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae703029010.att' / name of the satellite attitude file
DATE-OBS= '2008-06-28T22:22:54'/ start date of observations (UT)
DATE-END= '2008-07-01T01:25:08'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 12.1911 / average optical axis location R.A.(deg)
DEC_PNT = 31.9636 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 12.2125 / average optical axis location R.A.(deg)
DEC_PNT = 31.9081 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.1819 / average optical axis location R.A.(deg)
DEC_PNT = 31.9841 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.1762 / average optical axis location R.A.(deg)
DEC_PNT = 31.9712 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.1993 / average optical axis location R.A.(deg)
DEC_PNT = 31.9559 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.2064 / average optical axis location R.A.(deg)
DEC_PNT = 31.9580 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae703029010hxd_1_wam.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 2] Processing 'ae703029010hxd_1_wel.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 3] Processing 'ae703029010hxd_2_wam.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 4] Processing 'ae703029010hxd_2_wel.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 5] Processing 'ae703029010xi0_1_3x3n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[ 6] Processing 'ae703029010xi0_1_5x5n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[ 7] Processing 'ae703029010xi0_1_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
[ 8] Processing 'ae703029010xi0_1_dun066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[ 9] Processing 'ae703029010xi0_2_3x3n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[10] Processing 'ae703029010xi0_2_5x5n066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[11] Processing 'ae703029010xi0_2_dun066.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
+2: TELESCOP='SUZAKU', INSTRUME='XIS0'
+3: TELESCOP='SUZAKU', INSTRUME='XIS0'
+4: TELESCOP='SUZAKU', INSTRUME='XIS0'
+5: TELESCOP='SUZAKU', INSTRUME='XIS0'
[12] Processing 'ae703029010xi1_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'
[13] Processing 'ae703029010xi1_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'
[14] Processing 'ae703029010xi1_1_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
+2: TELESCOP='SUZAKU', INSTRUME='XIS1'
[15] Processing 'ae703029010xi1_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'
[16] Processing 'ae703029010xi1_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'
[17] Processing 'ae703029010xi1_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'
[18] Processing 'ae703029010xi1_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'
[19] Processing 'ae703029010xi2_1_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS2'
+1: TELESCOP='SUZAKU', INSTRUME='XIS2'
+2: TELESCOP='SUZAKU', INSTRUME='XIS2'
[20] Processing 'ae703029010xi3_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'
[21] Processing 'ae703029010xi3_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'
[22] Processing 'ae703029010xi3_1_dfi01.fff'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
+2: TELESCOP='SUZAKU', INSTRUME='XIS3'
[23] Processing 'ae703029010xi3_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'
[24] Processing 'ae703029010xi3_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'
[25] Processing 'ae703029010xi3_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'
[26] Processing 'ae703029010xi3_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'
[27] Processing 'ae703029010.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=''
[28] Processing 'ae703029010hxd_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'
[29] Processing 'ae703029010xi0_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'
[30] Processing 'ae703029010xi1_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'
[31] Processing 'ae703029010xi2_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'
[32] Processing 'ae703029010xi3_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'
[33] Processing 'ae703029010xrs_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'
[34] Processing 'ae703029010xi0_0_066.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
[35] Processing 'ae703029010xi1_0_069.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
[36] Processing 'ae703029010xi2_0_000.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS2'
+1: TELESCOP='SUZAKU', INSTRUME='XIS2'
[37] Processing 'ae703029010xi3_0_066.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
[38] Processing 'ae703029010.orb'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
+2: TELESCOP='SUZAKU', INSTRUME=''
[39] Processing 'ae703029010.att'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
[40] Processing 'ae703029010.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: 41
QUIT: 1 |
<--- [ 1] aeaspect version 2.3
| OK: 40/41
GET: 40
*** 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 3.805 10.750 14.556 99.79
(others) 0.024 0.007 0.031 0.21
--------------------------------------------------------------------------
TOTAL 3.829 10.757 14.587 100.00
-> Nominal spacecraft Euler angles: Phi=12.191107631588 Theta=58.036421227811 Psi=18.116400134728outfile,f,a,"ae703029010.ehk",,,"output .ehk file" orbit,f,a,"ae703029010.orb",,,"input orbit file" attitude,f,a,"ae703029010.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,267974077.019307,,,"start time" stop_time,r,a,268190769.461831,,,"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 'ae703029010.ehk'
ORBIT 'ae703029010.orb'
ATTITUDE 'ae703029010.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 267974077.019307
TSTOP 268190769.461831
TIME_COL_NAME ''
STEP_SEC 1.0
MARGIN_SEC 60.0
CLOBBER YES
aste_orbit: reading 'ae703029010.orb[EXTNAME=PAR_ORBIT,EXTVER=0]' ...
nrow=34566, nkp=30241, tstart=267148801.0, tstop=268963201.0
aemkehk: generate TIME from 267974017.000 to 268190830.000,
in 1.0 sec step, 216814 rows
aemkehk: creating ehk file 'ae703029010.ehk'
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
aemkehk: 'ae703029010.ehk' created
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 216815
QUIT: 1 |
<--- [ 1] AEmkEHKtimeGen version 2.4
| OK: 216814/216815
[ 2] AEmkEHKfitsWrite version 2.4
| OK: 216814/216814
GET: 216814
*** 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 216814 216814 SINGLE
ASTE:EHK:EULER1 8 8 216814 0 SINGLE
ASTE:EHK:EULER2 8 8 216814 0 SINGLE
ASTE:EHK:EULER3 8 8 216814 0 SINGLE
ASTE:EHK:FOC_RA 8 8 216814 0 SINGLE
ASTE:EHK:FOC_DEC 8 8 216814 0 SINGLE
ASTE:EHK:FOC_ROLL 8 8 216814 0 SINGLE
ASTE:EHK:DLT_RA 8 8 216814 0 SINGLE
ASTE:EHK:DLT_DEC 8 8 216814 0 SINGLE
ASTE:EHK:DLT_ROLL 8 8 216814 0 SINGLE
ASTE:EHK:ANG_DIST 8 8 216814 0 SINGLE
ASTE:EHK:SAT_ALT 8 8 216814 0 SINGLE
ASTE:EHK:SAT_LON 8 8 216814 0 SINGLE
ASTE:EHK:SAT_LAT 8 8 216814 0 SINGLE
ASTE:EHK:ELV 8 8 216814 0 SINGLE
ASTE:EHK:DYE_ELV 8 8 216814 0 SINGLE
ASTE:EHK:NTE_ELV 8 8 216814 0 SINGLE
ASTE:EHK:SUN_ALT 8 8 216814 0 SINGLE
ASTE:EHK:T_DY_NT 8 8 216814 0 SINGLE
ASTE:EHK:TN_DY_NT 8 8 216814 0 SINGLE
ASTE:EHK:COR 8 8 216814 0 SINGLE
ASTE:EHK:COR2 8 8 216814 0 SINGLE
ASTE:EHK:SAA 4 4 216814 0 SINGLE
ASTE:EHK:T_SAA 8 8 216814 0 SINGLE
ASTE:EHK:TN_SAA 8 8 216814 0 SINGLE
ASTE:EHK:SAA_HXD 4 4 216814 0 SINGLE
ASTE:EHK:T_SAA_HXD 8 8 216814 0 SINGLE
ASTE:EHK:TN_SAA_HXD 8 8 216814 0 SINGLE
ASTE:EHK:ZGMAG_ANG 8 8 216814 0 SINGLE
ASTE:EHK:ZGMAG_PHI 8 8 216814 0 SINGLE
ASTE:EHK:ZE_ANG 8 8 216814 0 SINGLE
ASTE:EHK:ZE_PHI 8 8 216814 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] AEmkEHKtimeGen 0.328 0.155 0.483 2.39
[ 2] AEmkEHKfitsWrite 19.324 0.372 19.696 97.51
(others) 0.015 0.006 0.021 0.10
--------------------------------------------------------------------------
TOTAL 19.667 0.533 20.200 100.00
-> aemkehk created ae703029010.ehk.attitude,f,a,"ae703029010.att",,,"input attitude file" filelist,f,a,"ae703029010.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 'ae703029010.att'
MOD_FILE_LIST 'ae703029010.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=268006975.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=268190709.0
aste_aspect version 1.8
aspecting attitude: ae703029010.att
TELESCOP='SUZAKU', OBJECT='MRK 348', (RA,DEC)=(12.1963, 31.9569)
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: 267974007.019307 268201497.988603 227490.969296
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-28 13:13:26 (54645.55099559)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-01 04:24:56 (54648.18399292)
aspecting START STOP dT: 268006975.000000 268190709.000000 183734.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-28 22:22:54 (54645.93256944)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-01 01:25:08 (54648.05912037)
averaging attitude in 60 sec sampling, 3063 points
Sample Time : 60.0 s Number of Accept / Sample : 3063 / 3063
TIME START STOP TELAPSE (s) : 268006975.0 268190709.0 183734.0
START DATE TIME in UTC (MJD): 2008-06-28 22:22:54 (54645.93256944)
STOP DATE TIME in UTC (MJD): 2008-07-01 01:25:08 (54648.05912037)
Mean [MEDIAN] Euler angles : 12.191108 58.036421 18.116400
RA DEC SUN ANGLE
Mean Sun position (deg) : 99.215437 23.175083
Mean aberration (arcsec) : -1.856341 -9.780851
Mean satellite X-axis (deg) : 43.907983 -53.738664 90.449270
Mean satellite Y-axis (deg) : 112.017022 15.295896 14.415051
Mean satellite Z-axis (deg) : 12.191108 31.963579 75.592256
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 12.191108 31.963579 71.883600
Average 12.191886 31.963376 71.883600
Minimum 12.185803 31.941685 71.876113
Maximum 12.201528 31.966743 71.890025 1.341082
Sigma (RMS) 0.002949 0.002235 0.001244 0.205496
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '703029010' / Observation identification string
OBSERVER= 'VALENTINA BRAITO' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'MRK 348 ' / name of observed object
RA_OBJ = 12.1963 / planned target R.A.(deg)
DEC_OBJ = 31.9569 / planned target DEC.(deg)
RA_NOM = 12.1911 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 31.9636 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 71.8836 / nominal position angle from north to DETY(deg)
MEAN_EA1= 12.191107631588 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 58.036421227811 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 18.116400134728 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae703029010.att' / name of the satellite attitude file
DATE-OBS= '2008-06-28T22:22:54'/ start date of observations (UT)
DATE-END= '2008-07-01T01:25:08'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 12.1911 / average optical axis location R.A.(deg)
DEC_PNT = 31.9636 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 12.2125 / average optical axis location R.A.(deg)
DEC_PNT = 31.9081 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.1819 / average optical axis location R.A.(deg)
DEC_PNT = 31.9841 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.1762 / average optical axis location R.A.(deg)
DEC_PNT = 31.9712 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.1993 / average optical axis location R.A.(deg)
DEC_PNT = 31.9559 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.2064 / average optical axis location R.A.(deg)
DEC_PNT = 31.9580 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae703029010.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 0.274 0.083 0.357 92.25
(others) 0.020 0.010 0.030 7.75
--------------------------------------------------------------------------
TOTAL 0.294 0.093 0.387 100.00
-> Fixing TNULL values.Reading ASCII configuration file /aps/subsys/proc/ae/lists/makefilter.config-> newmakefilter created ae703029010.mkf.
Time column is TIME ORDERED-> Contents of aeaspect.par
attitude,f,a,"ae703029010.att",,,"input attitude file" filelist,f,a,"ae703029010.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 'ae703029010.att'
MOD_FILE_LIST 'ae703029010.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=268006975.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=268190709.0
aste_aspect version 1.8
aspecting attitude: ae703029010.att
TELESCOP='SUZAKU', OBJECT='MRK 348', (RA,DEC)=(12.1963, 31.9569)
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: 267974007.019307 268201497.988603 227490.969296
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-28 13:13:26 (54645.55099559)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-01 04:24:56 (54648.18399292)
aspecting START STOP dT: 268006975.000000 268190709.000000 183734.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-28 22:22:54 (54645.93256944)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-01 01:25:08 (54648.05912037)
averaging attitude in 60 sec sampling, 3063 points
Sample Time : 60.0 s Number of Accept / Sample : 3063 / 3063
TIME START STOP TELAPSE (s) : 268006975.0 268190709.0 183734.0
START DATE TIME in UTC (MJD): 2008-06-28 22:22:54 (54645.93256944)
STOP DATE TIME in UTC (MJD): 2008-07-01 01:25:08 (54648.05912037)
Mean [MEDIAN] Euler angles : 12.191108 58.036421 18.116400
RA DEC SUN ANGLE
Mean Sun position (deg) : 99.215437 23.175083
Mean aberration (arcsec) : -1.856341 -9.780851
Mean satellite X-axis (deg) : 43.907983 -53.738664 90.449270
Mean satellite Y-axis (deg) : 112.017022 15.295896 14.415051
Mean satellite Z-axis (deg) : 12.191108 31.963579 75.592256
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 12.191108 31.963579 71.883600
Average 12.191886 31.963376 71.883600
Minimum 12.185803 31.941685 71.876113
Maximum 12.201528 31.966743 71.890025 1.341082
Sigma (RMS) 0.002949 0.002235 0.001244 0.205496
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '703029010' / Observation identification string
OBSERVER= 'VALENTINA BRAITO' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'MRK 348 ' / name of observed object
RA_OBJ = 12.1963 / planned target R.A.(deg)
DEC_OBJ = 31.9569 / planned target DEC.(deg)
RA_NOM = 12.1911 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 31.9636 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 71.8836 / nominal position angle from north to DETY(deg)
MEAN_EA1= 12.191107631588 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 58.036421227811 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 18.116400134728 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae703029010.att' / name of the satellite attitude file
DATE-OBS= '2008-06-28T22:22:54'/ start date of observations (UT)
DATE-END= '2008-07-01T01:25:08'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 12.1911 / average optical axis location R.A.(deg)
DEC_PNT = 31.9636 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 12.2125 / average optical axis location R.A.(deg)
DEC_PNT = 31.9081 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.1819 / average optical axis location R.A.(deg)
DEC_PNT = 31.9841 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.1762 / average optical axis location R.A.(deg)
DEC_PNT = 31.9712 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.1993 / average optical axis location R.A.(deg)
DEC_PNT = 31.9559 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 12.2064 / average optical axis location R.A.(deg)
DEC_PNT = 31.9580 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae703029010.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 0.703 0.913 1.616 98.12
(others) 0.023 0.008 0.031 1.88
--------------------------------------------------------------------------
TOTAL 0.726 0.921 1.647 100.00
-> Generating filter file ae703029010xi0_0.filter.Reading ASCII configuration file ae703029010xi0_0.config-> newmakefilter created ae703029010xi0_0.filter.
Time column is TIME ORDERED-> Generating filter file ae703029010xi1_0.filter.
Reading ASCII configuration file ae703029010xi1_0.config-> newmakefilter created ae703029010xi1_0.filter.
Time column is TIME ORDERED-> Generating filter file ae703029010xi2_0.filter.
Reading ASCII configuration file ae703029010xi2_0.config-> newmakefilter created ae703029010xi2_0.filter.
Time column is TIME ORDERED-> Generating filter file ae703029010xi3_0.filter.
Reading ASCII configuration file ae703029010xi3_0.config-> newmakefilter created ae703029010xi3_0.filter.
Time column is TIME ORDERED
hk_dir,s,hl,"./",,,"HXD HK file directory ?" hk_file,s,hl,"ae703029010hxd_0.hk",,,"HXD HK file name ?" WPU,s,hl,"0123",,,"WPU board IDs ?" gti_fname,s,hl,"ae703029010hxd_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 = ae703029010hxd_0.hk hxdgtigen: WPU = 0123 hxdgtigen: fifo full = yes hxdgtigen: output gti = ae703029010hxd_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 ae703029010hxd_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,"ae703029010hxd_1_wel.fff",,,"HXD event fits file name ?" tim_filename,f,a,"ae703029010.tim",,,"input .tim FITS file name (HXDtimeSet)" leapfile,f,a,"CALDB",,,"leapsec file name" hklist_name,f,a,"ae703029010hxd_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 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae703029010hxd_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: 10258753
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 10258752/10258753
[ 2] HXDleapsecInit version 2.0.1
| OK: 10258752/10258752
[ 3] HXDgethkInit version 0.1.0
| OK: 10258752/10258752
[ 4] HXDfwelTimeFITS version 0.3.8
| OK: 10258752/10258752
[ 5] HXDfwelTime version 2.0.0
| OK: 10258752/10258752
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 10258752/10258752
GET: 10258752
*** 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 10258752 0 SINGLE
HXD:WEL:EV_TIME 8 8 20517504 10258752 SINGLE
HXD:WEL:MTI 4 4 20517504 10258752 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 10258752 10258752 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_RESERV 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 10258752 10258752 SINGLE
HXD:WEL:DET_TYPE 4 4 10258752 10258752 SINGLE
HXD:WEL:PI_FAST 4 4 10258752 10258752 SINGLE
HXD:WEL:PI_SLOW 4 4 10258752 10258752 SINGLE
HXD:WEL:PI_PIN 16 16 10258752 10258752 SINGLE
HXD:WEL:UPI_FAST 8 8 10258752 10258752 SINGLE
HXD:WEL:UPI_SLOW 8 8 10258752 10258752 SINGLE
HXD:WEL:UPI_PIN 32 32 10258752 10258752 SINGLE
HXD:WEL:PIN_ID 4 4 10258752 10258752 SINGLE
HXD:WEL:UNITID 4 4 10258752 20515781 SINGLE
HXD:WEL:LENGTH_CHK 4 4 10258752 10258752 SINGLE
HXD:WEL:WELTIME 4 4 10258752 20515781 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 10258752 10258752 SINGLE
HXD:WEL:TRIG 4 4 10258752 10258752 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 10258752 10258752 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 10258752 10258752 SINGLE
HXD:WEL:PHA_FAST 4 4 10258752 10258752 SINGLE
HXD:WEL:PHA_SLOW 4 4 10258752 10258752 SINGLE
HXD:WEL:PHA_PIN 16 16 10258752 10258752 SINGLE
HXD:WEL:PACKET_AETIME 8 8 10258752 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 10258752 30772810 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 10258752 20515781 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 10282604 30776256 SINGLE
HXD:WEL:EVENT 204 204 20515781 10257029 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 11075 11075 SINGLE
HXDfwelTime:HXD_AE_TM_LATCH_TM 4 4 11054 11054 SINGLE
HXDfwelTime:HXD_WPU_CLK_RATE 4 4 11054 10257030 SINGLE
HXDfwelTime:HXD_SYS_TIME 8 8 11075 0 SINGLE
HXDfwelTime:HXD_HK_TIME 8 8 11054 0 SINGLE
HXDfwelTime:PWH 64 0 0 0 SINGLE
HXDfwelTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfwelTime:TIME_INVALID 4 4 10258752 0 SINGLE
HXDfwelTime:EV_TIME_TLM 8 8 10258752 0 SINGLE
HXDfwelTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 233.612 9.634 243.245 40.91
[ 2] HXDleapsecInit 2.997 6.167 9.164 1.54
[ 3] HXDgethkInit 2.294 5.571 7.865 1.32
[ 4] HXDfwelTimeFITS 4.789 5.298 10.087 1.70
[ 5] HXDfwelTime 46.423 5.214 51.637 8.69
[ 6] HXD2ndeventFitsWrite 223.235 49.262 272.496 45.83
(others) 0.013 0.011 0.024 0.00
--------------------------------------------------------------------------
TOTAL 513.362 81.157 594.519 100.00
-> hxdtime successful for ae703029010hxd_1_wel.sff.input_name,f,a,"ae703029010hxd_1_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae703029010hxd_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,"ae703029010",,,"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 = ae703029010hxd_1_wel.sff, HK = ae703029010hxd_0.hk
rm -rf ae703029010_hxdmkgainhist_tmp; mkdir ae703029010_hxdmkgainhist_tmp
maketime infile="ae703029010hxd_0.hk+1" outfile="ae703029010_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 = ae703029010_hxdmkgainhist_tmp/total.gti
fdump infile="ae703029010_hxdmkgainhist_tmp/total.gti" outfile="ae703029010_hxdmkgainhist_tmp/fdump.log" columns='START,STOP' rows=- prhead=no pagewidth=100 showrow=no
fdump log = ae703029010_hxdmkgainhist_tmp/fdump.log
GTI LIST = ae703029010_hxdmkgainhist_tmp/gtilist
Exposure = 1000000
Making Non-selection fits file now.
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0.fff" expr="(UNITID=="0")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1.fff" expr="(UNITID=="1")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2.fff" expr="(UNITID=="2")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3.fff" expr="(UNITID=="3")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4.fff" expr="(UNITID=="4")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5.fff" expr="(UNITID=="5")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6.fff" expr="(UNITID=="6")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7.fff" expr="(UNITID=="7")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8.fff" expr="(UNITID=="8")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9.fff" expr="(UNITID=="9")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10.fff" expr="(UNITID=="10")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11.fff" expr="(UNITID=="11")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12.fff" expr="(UNITID=="12")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13.fff" expr="(UNITID=="13")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14.fff" expr="(UNITID=="14")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15.fff" expr="(UNITID=="15")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
Making Hit Pattern 8 fits file now.
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0_hitpat8.fff" expr="(UNITID==0) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0111000000000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b11100000000000000011) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1_hitpat8.fff" expr="(UNITID==1) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1011100100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b01110000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2_hitpat8.fff" expr="(UNITID==2) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1101100110001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3_hitpat8.fff" expr="(UNITID==3) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1110000000001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000111) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4_hitpat8.fff" expr="(UNITID==4) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110011100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00111000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5_hitpat8.fff" expr="(UNITID==5) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000101100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00011111000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6_hitpat8.fff" expr="(UNITID==6) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000110111000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000011100000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7_hitpat8.fff" expr="(UNITID==7) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110111011000100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8_hitpat8.fff" expr="(UNITID==8) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0010001101110110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9_hitpat8.fff" expr="(UNITID==9) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000001110110000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000001110000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10_hitpat8.fff" expr="(UNITID==10) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011010000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000111110000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11_hitpat8.fff" expr="(UNITID==11) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011100110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000111000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12_hitpat8.fff" expr="(UNITID==12) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000000000111) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000001110) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13_hitpat8.fff" expr="(UNITID==13) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000110011011) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14_hitpat8.fff" expr="(UNITID==14) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000010011101) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000011100000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_1_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0.fff
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Total Good Bad: Region Time Phase Grade Cut
471279 470957 0 322 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
471279 470957 0 322 0 0 0
in 76616. seconds
Spectrum has 470957 counts for 6.147 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0.fff
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Total Good Bad: Region Time Phase Grade Cut
471279 470957 0 322 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
471279 470957 0 322 0 0 0
in 76616. seconds
Spectrum has 470957 counts for 6.147 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
192875 192731 0 144 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
192875 192731 0 144 0 0 0
in 76616. seconds
Spectrum has 192731 counts for 2.516 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
192875 192731 0 144 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
192875 192731 0 144 0 0 0
in 76616. seconds
Spectrum has 192731 counts for 2.516 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1.fff
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Total Good Bad: Region Time Phase Grade Cut
492078 491721 0 357 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
492078 491721 0 357 0 0 0
in 76616. seconds
Spectrum has 491721 counts for 6.418 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1.fff
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Total Good Bad: Region Time Phase Grade Cut
492078 491721 0 357 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
492078 491721 0 357 0 0 0
in 76616. seconds
Spectrum has 491721 counts for 6.418 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
217632 217475 0 157 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
217632 217475 0 157 0 0 0
in 76616. seconds
Spectrum has 217475 counts for 2.839 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
217632 217475 0 157 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
217632 217475 0 157 0 0 0
in 76616. seconds
Spectrum has 217475 counts for 2.839 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
601572 600180 0 1392 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
601572 600180 0 1392 0 0 0
in 76616. seconds
Spectrum has 600180 counts for 7.834 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
601572 600180 0 1392 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
601572 600180 0 1392 0 0 0
in 76616. seconds
Spectrum has 600180 counts for 7.834 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
263953 263329 0 624 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
263953 263329 0 624 0 0 0
in 76616. seconds
Spectrum has 263329 counts for 3.437 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
263953 263329 0 624 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
263953 263329 0 624 0 0 0
in 76616. seconds
Spectrum has 263329 counts for 3.437 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
456206 455902 0 304 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
456206 455902 0 304 0 0 0
in 76616. seconds
Spectrum has 455902 counts for 5.950 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
456206 455902 0 304 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
456206 455902 0 304 0 0 0
in 76616. seconds
Spectrum has 455902 counts for 5.950 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
193119 192988 0 131 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
193119 192988 0 131 0 0 0
in 76616. seconds
Spectrum has 192988 counts for 2.519 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
193119 192988 0 131 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
193119 192988 0 131 0 0 0
in 76616. seconds
Spectrum has 192988 counts for 2.519 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
469151 468818 0 333 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
469151 468818 0 333 0 0 0
in 76616. seconds
Spectrum has 468818 counts for 6.119 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
469151 468818 0 333 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
469151 468818 0 333 0 0 0
in 76616. seconds
Spectrum has 468818 counts for 6.119 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
188592 188461 0 131 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
188592 188461 0 131 0 0 0
in 76616. seconds
Spectrum has 188461 counts for 2.460 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
188592 188461 0 131 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
188592 188461 0 131 0 0 0
in 76616. seconds
Spectrum has 188461 counts for 2.460 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
463715 463376 0 339 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
463715 463376 0 339 0 0 0
in 76616. seconds
Spectrum has 463376 counts for 6.048 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
463715 463376 0 339 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
463715 463376 0 339 0 0 0
in 76616. seconds
Spectrum has 463376 counts for 6.048 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
191565 191438 0 127 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
191565 191438 0 127 0 0 0
in 76616. seconds
Spectrum has 191438 counts for 2.499 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
191565 191438 0 127 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
191565 191438 0 127 0 0 0
in 76616. seconds
Spectrum has 191438 counts for 2.499 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
437133 436833 0 300 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
437133 436833 0 300 0 0 0
in 76616. seconds
Spectrum has 436833 counts for 5.702 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
437133 436833 0 300 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
437133 436833 0 300 0 0 0
in 76616. seconds
Spectrum has 436833 counts for 5.702 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
183658 183529 0 129 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
183658 183529 0 129 0 0 0
in 76616. seconds
Spectrum has 183529 counts for 2.395 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
183658 183529 0 129 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
183658 183529 0 129 0 0 0
in 76616. seconds
Spectrum has 183529 counts for 2.395 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
731898 730194 0 1704 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
731898 730194 0 1704 0 0 0
in 76616. seconds
Spectrum has 730194 counts for 9.531 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
731898 730194 0 1704 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
731898 730194 0 1704 0 0 0
in 76616. seconds
Spectrum has 730194 counts for 9.531 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
296394 295687 0 707 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
296394 295687 0 707 0 0 0
in 76616. seconds
Spectrum has 295687 counts for 3.859 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
296394 295687 0 707 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
296394 295687 0 707 0 0 0
in 76616. seconds
Spectrum has 295687 counts for 3.859 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
634366 632871 0 1495 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
634366 632871 0 1495 0 0 0
in 76616. seconds
Spectrum has 632871 counts for 8.260 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
634366 632871 0 1495 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
634366 632871 0 1495 0 0 0
in 76616. seconds
Spectrum has 632871 counts for 8.260 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
267376 266715 0 661 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
267376 266715 0 661 0 0 0
in 76616. seconds
Spectrum has 266715 counts for 3.481 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
267376 266715 0 661 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
267376 266715 0 661 0 0 0
in 76616. seconds
Spectrum has 266715 counts for 3.481 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
410674 410363 0 311 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
410674 410363 0 311 0 0 0
in 76616. seconds
Spectrum has 410363 counts for 5.356 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
410674 410363 0 311 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
410674 410363 0 311 0 0 0
in 76616. seconds
Spectrum has 410363 counts for 5.356 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
177975 177850 0 125 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
177975 177850 0 125 0 0 0
in 76616. seconds
Spectrum has 177850 counts for 2.321 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
177975 177850 0 125 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
177975 177850 0 125 0 0 0
in 76616. seconds
Spectrum has 177850 counts for 2.321 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
420513 420197 0 316 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
420513 420197 0 316 0 0 0
in 76616. seconds
Spectrum has 420197 counts for 5.484 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
420513 420197 0 316 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
420513 420197 0 316 0 0 0
in 76616. seconds
Spectrum has 420197 counts for 5.484 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
178403 178278 0 125 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
178403 178278 0 125 0 0 0
in 76616. seconds
Spectrum has 178278 counts for 2.327 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
178403 178278 0 125 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
178403 178278 0 125 0 0 0
in 76616. seconds
Spectrum has 178278 counts for 2.327 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
493133 492757 0 376 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
493133 492757 0 376 0 0 0
in 76616. seconds
Spectrum has 492757 counts for 6.432 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
493133 492757 0 376 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
493133 492757 0 376 0 0 0
in 76616. seconds
Spectrum has 492757 counts for 6.432 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
203521 203382 0 139 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
203521 203382 0 139 0 0 0
in 76616. seconds
Spectrum has 203382 counts for 2.655 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
203521 203382 0 139 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
203521 203382 0 139 0 0 0
in 76616. seconds
Spectrum has 203382 counts for 2.655 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
445302 444929 0 373 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
445302 444929 0 373 0 0 0
in 76616. seconds
Spectrum has 444929 counts for 5.807 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
445302 444929 0 373 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
445302 444929 0 373 0 0 0
in 76616. seconds
Spectrum has 444929 counts for 5.807 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
187310 187162 0 148 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
187310 187162 0 148 0 0 0
in 76616. seconds
Spectrum has 187162 counts for 2.443 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
187310 187162 0 148 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
187310 187162 0 148 0 0 0
in 76616. seconds
Spectrum has 187162 counts for 2.443 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
592458 591122 0 1336 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
592458 591122 0 1336 0 0 0
in 76616. seconds
Spectrum has 591122 counts for 7.715 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
592458 591122 0 1336 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
592458 591122 0 1336 0 0 0
in 76616. seconds
Spectrum has 591122 counts for 7.715 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
260414 259796 0 618 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
260414 259796 0 618 0 0 0
in 76616. seconds
Spectrum has 259796 counts for 3.391 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
260414 259796 0 618 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
260414 259796 0 618 0 0 0
in 76616. seconds
Spectrum has 259796 counts for 3.391 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
444642 444316 0 326 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
444642 444316 0 326 0 0 0
in 76616. seconds
Spectrum has 444316 counts for 5.799 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
444642 444316 0 326 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
444642 444316 0 326 0 0 0
in 76616. seconds
Spectrum has 444316 counts for 5.799 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
184519 184382 0 137 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
184519 184382 0 137 0 0 0
in 76616. seconds
Spectrum has 184382 counts for 2.407 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
184519 184382 0 137 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
184519 184382 0 137 0 0 0
in 76616. seconds
Spectrum has 184382 counts for 2.407 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
423084 422783 0 301 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
423084 422783 0 301 0 0 0
in 76616. seconds
Spectrum has 422783 counts for 5.518 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
423084 422783 0 301 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
423084 422783 0 301 0 0 0
in 76616. seconds
Spectrum has 422783 counts for 5.518 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
181234 181112 0 122 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
181234 181112 0 122 0 0 0
in 76616. seconds
Spectrum has 181112 counts for 2.364 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
181234 181112 0 122 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
181234 181112 0 122 0 0 0
in 76616. seconds
Spectrum has 181112 counts for 2.364 counts/sec
... written the PHA data Extension
rbnpha infile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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 13:21:56 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.516 +/- 5.7300E-03
Net count rate (cts/s) for file 2 2.516 +/- 5.7300E-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 = 691572.8 using 168 PHA bins.
Reduced chi-squared = 4322.330 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17625.52 using 168 PHA bins.
Reduced chi-squared = 110.1595 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6772.84 -3 82.15 16.39 0.1653 1.038
0.6100 82.56 16.14 1.030
4376.39 -4 72.12 6.896 7.3471E-02 0.7982
0.2792 73.61 7.465 0.8083
2269.82 -2 74.76 15.74 0.1387 0.8467
0.3508 76.44 17.65 0.8446
2072.62 -1 73.40 7.472 0.1258 0.8440
0.3628 72.56 6.169 0.8450
958.744 -2 74.56 9.262 0.1314 0.8808
0.4178 74.05 9.341 0.8797
840.103 0 74.83 9.209 0.1355 0.8800
0.4197 75.16 9.908 0.8800
813.939 0 74.95 9.231 0.1382 0.8802
0.4205 75.77 10.30 0.8807
785.542 -1 75.03 9.447 0.1437 0.8850
0.4270 76.26 10.22 0.8860
699.164 -2 75.23 9.435 0.1448 0.9207
0.4893 76.53 10.16 0.9204
623.501 -2 75.39 9.408 0.1446 0.9472
0.5503 76.73 10.10 0.9471
574.948 -2 75.51 9.407 0.1448 0.9681
0.6040 76.88 10.09 0.9683
545.705 -2 75.61 9.410 0.1450 0.9847
0.6500 76.99 10.08 0.9851
527.968 -2 75.68 9.418 0.1454 0.9979
0.6886 77.08 10.09 0.9985
524.166 -3 75.88 9.453 0.1467 1.035
0.7954 77.31 10.13 1.035
501.231 -4 75.95 9.477 0.1474 1.048
0.8497 77.39 10.12 1.049
499.657 -5 75.95 9.479 0.1474 1.048
0.8536 77.39 10.13 1.049
499.656 -6 75.95 9.479 0.1474 1.048
0.8536 77.39 10.13 1.049
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.10E-07 | 0.00 0.00 -0.36 0.63 -0.35 0.00 0.00 0.60
1.05E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.32E-06 | 0.00 0.01 -0.93 -0.23 0.14 0.00 0.03 -0.24
1.23E-03 | 0.04 0.01 -0.01 -0.27 -0.92 0.04 0.12 -0.25
2.28E-03 | 0.00 -0.08 0.03 0.04 0.11 0.02 0.99 0.04
4.38E-02 | 0.72 0.69 0.01 0.01 0.03 -0.02 0.05 0.01
6.27E-02 | -0.43 0.42 0.00 -0.01 -0.04 -0.79 0.05 -0.01
5.11E-02 | -0.54 0.58 0.00 0.00 0.01 0.61 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 75.9542 +/- 0.222315 1
2 2 1 gaussian Sigma keV 9.47883 +/- 0.222174 1
3 3 1 gaussian norm 0.147424 +/- 0.316690E-02 1
4 4 2 powerlaw PhoIndex 1.04794 +/- 0.101727E-01 1
5 5 2 powerlaw norm 0.853606 +/- 0.347781E-01 1
6 6 3 gaussian LineE keV 77.3944 +/- 0.241484 2
7 7 3 gaussian Sigma keV 10.1259 +/- 0.512001E-01 2
8 3 3 gaussian norm 0.147424 = par 3 2
9 8 4 powerlaw PhoIndex 1.04914 +/- 0.977155E-02 2
10 5 4 powerlaw norm 0.853606 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 499.6565 using 168 PHA bins.
Reduced chi-squared = 3.122853 for 160 degrees of freedom
Null hypothesis probability = 1.340E-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 ( 2.992) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.992) > 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 0.9324 photons ( 1.1063E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9284 photons ( 1.1049E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:21:56 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.147 +/- 8.9572E-03
Net count rate (cts/s) for file 2 6.147 +/- 8.9572E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.631 +/- 1.0633E-02( 59.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.631 +/- 1.0633E-02( 59.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.1595869E+07 using 198 PHA bins.
Reduced chi-squared = 61030.89 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 96236.80 using 198 PHA bins.
Reduced chi-squared = 506.5095 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
51924.5 -3 119.1 18.94 0.3847 2.801
0.1527 111.6 18.93 2.739
23197.2 -2 107.3 19.33 1.323 8.436
6.8880E-02 111.7 19.27 8.324
21368.1 0 109.2 19.35 1.273 9.194
1.6033E-02 112.4 19.35 9.353
21054.7 -1 110.9 19.36 1.295 1.751
3.4087E-03 112.4 19.36 9.462
20870.0 -1 111.8 19.36 1.299 9.219
8.2019E-04 112.3 19.36 9.500
20712.1 -1 112.1 19.37 1.296 9.454
2.2378E-05 112.3 19.37 9.500
20586.6 -1 112.3 19.37 1.293 9.490
1.0584E-05 112.4 19.37 9.500
20491.8 -1 112.4 19.37 1.290 9.497
4.0284E-06 112.5 19.37 9.500
20252.6 -1 112.6 19.37 1.281 9.500
7.3970E-07 112.6 19.37 9.500
20240.0 -1 112.7 19.37 1.282 9.500
3.2370E-07 112.7 19.37 9.500
19937.9 -1 113.0 19.37 1.270 0.8307
1.1231E-08 112.8 19.37 9.500
19148.8 -1 113.7 19.37 1.232 5.865
1.4634E-09 112.9 19.37 9.500
18799.0 -1 114.1 19.37 1.216 8.933
7.1232E-10 113.2 19.37 9.500
18509.5 -1 114.4 19.37 1.203 1.593
1.7579E-10 113.5 19.37 9.500
18014.8 0 115.1 19.37 1.175 9.251
3.0365E-11 114.0 19.37 9.500
17687.3 0 115.7 19.37 1.156 9.399
9.4249E-12 114.4 19.37 9.500
17459.1 0 116.2 19.37 1.142 9.468
3.4883E-12 114.8 19.37 9.500
17314.0 0 116.6 19.37 1.131 9.494
1.6255E-12 115.2 19.37 9.500
17147.6 0 117.2 19.37 1.115 9.503
9.7510E-14 115.7 19.37 9.500
Fit parameter 5 has pegged
17058.5 0 117.5 19.37 1.103 9.503
0.000 115.8 19.32 9.500
Fit parameter 5 has pegged
17033.8 0 117.6 19.37 1.098 9.503
0.000 115.8 19.30 9.500
Fit parameter 5 has pegged
17014.8 0 117.7 19.37 1.095 9.503
0.000 115.8 19.29 9.500
Fit parameter 5 has pegged
17004.2 0 117.7 19.37 1.093 9.503
0.000 115.8 19.28 9.500
Fit parameter 5 has pegged
16994.3 0 117.8 19.37 1.092 9.503
0.000 115.8 19.27 9.500
Fit parameter 5 has pegged
16987.3 0 117.8 19.37 1.091 9.503
0.000 115.9 19.27 9.500
Fit parameter 5 has pegged
16981.2 0 117.9 19.37 1.089 9.503
0.000 115.9 19.25 9.500
Fit parameter 5 has pegged
16977.7 0 117.9 19.37 1.089 9.503
0.000 115.9 19.25 9.500
Fit parameter 5 has pegged
16976.4 0 117.9 19.37 1.089 9.503
0.000 115.9 19.24 9.500
Fit parameter 5 has pegged
16974.9 0 117.9 19.37 1.088 9.503
0.000 115.9 19.24 9.500
Fit parameter 5 has pegged
16972.3 0 117.9 19.37 1.088 9.503
0.000 116.0 19.24 9.500
Fit parameter 5 has pegged
16970.7 0 117.9 19.37 1.088 9.503
0.000 116.0 19.23 9.500
Fit parameter 5 has pegged
16969.6 0 118.0 19.37 1.087 9.503
0.000 116.0 19.24 9.500
Fit parameter 5 has pegged
16968.3 0 118.0 19.37 1.087 9.503
0.000 116.0 19.23 9.500
Fit parameter 5 has pegged
16967.1 0 118.0 19.37 1.087 9.503
0.000 116.0 19.22 9.500
Fit parameter 5 has pegged
16965.3 0 118.0 19.37 1.086 9.503
0.000 116.0 19.21 9.500
Fit parameter 5 has pegged
16957.8 0 118.0 19.37 1.085 9.503
0.000 116.0 19.21 9.500
Fit parameter 5 has pegged
16951.1 0 118.1 19.37 1.084 9.503
0.000 116.0 19.21 9.500
Fit parameter 5 has pegged
16944.9 0 118.1 19.37 1.083 9.503
0.000 116.0 19.21 9.500
Fit parameter 5 has pegged
16939.3 0 118.2 19.37 1.082 9.503
0.000 116.0 19.21 9.500
Fit parameter 5 has pegged
16934.3 0 118.2 19.37 1.081 9.503
0.000 116.0 19.21 9.500
Fit parameter 5 has pegged
16929.6 0 118.3 19.37 1.081 9.503
0.000 116.0 19.21 9.500
Fit parameter 5 has pegged
16925.3 0 118.3 19.37 1.080 9.503
0.000 116.0 19.21 9.500
Fit parameter 5 has pegged
16921.5 0 118.4 19.37 1.079 9.503
0.000 116.0 19.21 9.500
Fit parameter 5 has pegged
16918.0 0 118.4 19.37 1.078 9.503
0.000 116.0 19.20 9.500
Fit parameter 5 has pegged
16914.8 0 118.4 19.37 1.078 9.503
0.000 116.0 19.20 9.500
Fit parameter 5 has pegged
16911.8 0 118.5 19.37 1.077 9.503
0.000 116.1 19.20 9.500
Fit parameter 5 has pegged
16909.0 0 118.5 19.37 1.076 9.503
0.000 116.1 19.20 9.500
Fit parameter 5 has pegged
16906.5 0 118.5 19.37 1.076 9.503
0.000 116.1 19.20 9.500
Fit parameter 5 has pegged
16904.1 0 118.6 19.37 1.075 9.503
0.000 116.1 19.19 9.500
Fit parameter 5 has pegged
16901.9 0 118.6 19.37 1.075 9.503
0.000 116.1 19.19 9.500
Fit parameter 5 has pegged
16900.0 0 118.6 19.37 1.074 9.503
0.000 116.1 19.19 9.500
Fit parameter 5 has pegged
16898.3 0 118.6 19.37 1.073 9.503
0.000 116.1 19.19 9.500
Fit parameter 5 has pegged
16896.5 0 118.7 19.37 1.073 9.503
0.000 116.1 19.18 9.500
Fit parameter 5 has pegged
16894.9 0 118.7 19.37 1.073 9.503
0.000 116.1 19.18 9.500
Fit parameter 5 has pegged
16893.5 0 118.7 19.37 1.072 9.503
0.000 116.1 19.18 9.500
Fit parameter 5 has pegged
16892.1 0 118.7 19.37 1.072 9.503
0.000 116.1 19.17 9.500
Fit parameter 5 has pegged
16890.9 0 118.7 19.37 1.071 9.503
0.000 116.1 19.17 9.500
Fit parameter 5 has pegged
16889.7 0 118.8 19.37 1.071 9.503
0.000 116.1 19.17 9.500
Fit parameter 5 has pegged
16888.6 0 118.8 19.37 1.070 9.503
0.000 116.1 19.17 9.500
Fit parameter 5 has pegged
16887.6 0 118.8 19.37 1.070 9.503
0.000 116.2 19.16 9.500
Fit parameter 5 has pegged
16886.6 0 118.8 19.37 1.070 9.503
0.000 116.2 19.16 9.500
Fit parameter 5 has pegged
16885.8 0 118.8 19.37 1.069 9.503
0.000 116.2 19.16 9.500
Fit parameter 5 has pegged
16884.9 0 118.8 19.37 1.069 9.503
0.000 116.2 19.15 9.500
Fit parameter 5 has pegged
16884.2 0 118.9 19.37 1.069 9.503
0.000 116.2 19.15 9.500
Fit parameter 5 has pegged
16883.5 0 118.9 19.37 1.068 9.503
0.000 116.2 19.15 9.500
Fit parameter 5 has pegged
16882.8 0 118.9 19.37 1.068 9.503
0.000 116.2 19.15 9.500
Fit parameter 5 has pegged
16882.2 0 118.9 19.37 1.068 9.503
0.000 116.2 19.14 9.500
Fit parameter 5 has pegged
16881.6 0 118.9 19.37 1.068 9.503
0.000 116.2 19.14 9.500
Fit parameter 5 has pegged
16881.0 0 118.9 19.37 1.067 9.503
0.000 116.2 19.14 9.500
Fit parameter 5 has pegged
16880.4 0 118.9 19.37 1.067 9.503
0.000 116.2 19.14 9.500
Fit parameter 5 has pegged
16879.9 0 118.9 19.37 1.067 9.503
0.000 116.2 19.13 9.500
Fit parameter 5 has pegged
16879.4 0 118.9 19.37 1.067 9.503
0.000 116.2 19.13 9.500
Fit parameter 5 has pegged
16879.0 0 118.9 19.37 1.066 9.503
0.000 116.2 19.13 9.500
Fit parameter 5 has pegged
16878.6 0 119.0 19.37 1.066 9.503
0.000 116.3 19.13 9.500
Fit parameter 5 has pegged
16878.1 0 119.0 19.37 1.066 9.503
0.000 116.3 19.12 9.500
Fit parameter 5 has pegged
16877.8 0 119.0 19.37 1.066 9.503
0.000 116.3 19.12 9.500
Fit parameter 5 has pegged
16877.4 0 119.0 19.37 1.066 9.503
0.000 116.3 19.12 9.500
Fit parameter 5 has pegged
16877.2 0 119.0 19.37 1.065 9.503
0.000 116.3 19.12 9.500
Fit parameter 5 has pegged
16876.8 0 119.0 19.37 1.065 9.503
0.000 116.3 19.12 9.500
Fit parameter 5 has pegged
16876.5 0 119.0 19.37 1.065 9.503
0.000 116.3 19.11 9.500
Fit parameter 5 has pegged
16876.2 0 119.0 19.37 1.065 9.503
0.000 116.3 19.11 9.500
Fit parameter 5 has pegged
16875.9 0 119.0 19.37 1.065 9.503
0.000 116.3 19.11 9.500
Fit parameter 5 has pegged
16875.5 0 119.0 19.37 1.065 9.503
0.000 116.3 19.11 9.500
Fit parameter 5 has pegged
16875.3 0 119.0 19.37 1.064 9.503
0.000 116.3 19.10 9.500
Fit parameter 5 has pegged
16875.1 0 119.0 19.37 1.064 9.503
0.000 116.3 19.10 9.500
Fit parameter 5 has pegged
16874.9 0 119.0 19.37 1.064 9.503
0.000 116.3 19.10 9.500
Fit parameter 5 has pegged
16874.8 0 119.0 19.37 1.064 9.503
0.000 116.3 19.10 9.500
Fit parameter 5 has pegged
16874.5 0 119.0 19.37 1.064 9.503
0.000 116.3 19.10 9.500
Fit parameter 5 has pegged
16874.3 0 119.0 19.37 1.064 9.503
0.000 116.3 19.09 9.500
Fit parameter 5 has pegged
16874.1 0 119.0 19.37 1.064 9.503
0.000 116.3 19.09 9.500
Fit parameter 5 has pegged
16874.0 0 119.0 19.37 1.063 9.503
0.000 116.3 19.09 9.500
Fit parameter 5 has pegged
16873.7 0 119.1 19.37 1.063 9.503
0.000 116.4 19.09 9.500
Fit parameter 5 has pegged
16873.6 0 119.1 19.37 1.063 9.503
0.000 116.4 19.09 9.500
Fit parameter 5 has pegged
16873.5 0 119.1 19.37 1.063 9.503
0.000 116.4 19.08 9.500
Fit parameter 5 has pegged
16873.3 0 119.1 19.37 1.063 9.503
0.000 116.4 19.08 9.500
Fit parameter 5 has pegged
16873.2 0 119.1 19.37 1.063 9.503
0.000 116.4 19.08 9.500
Fit parameter 5 has pegged
16873.0 0 119.1 19.37 1.063 9.503
0.000 116.4 19.08 9.500
Fit parameter 5 has pegged
16872.9 0 119.1 19.37 1.063 9.503
0.000 116.4 19.08 9.500
Fit parameter 5 has pegged
16872.8 0 119.1 19.37 1.063 9.503
0.000 116.4 19.08 9.500
Fit parameter 5 has pegged
16872.7 0 119.1 19.37 1.062 9.503
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16872.6 0 119.1 19.37 1.062 9.503
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16872.5 0 119.1 19.37 1.062 9.503
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16872.3 0 119.1 19.37 1.062 9.503
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16872.2 0 119.1 19.37 1.062 9.503
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16872.1 0 119.1 19.37 1.062 9.503
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16872.0 0 119.1 19.37 1.062 9.503
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16872.0 0 119.1 19.37 1.062 9.503
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16871.8 0 119.1 19.37 1.062 9.503
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16871.8 0 119.1 19.37 1.062 9.503
0.000 116.4 19.06 9.500
16871.7 0 119.1 19.37 1.062 9.503
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
16871.6 0 119.1 19.37 1.062 9.503
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16871.5 0 119.1 19.37 1.061 9.503
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16871.4 0 119.1 19.37 1.061 9.503
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16871.4 4 119.1 19.37 1.061 9.503
0.000 116.4 19.06 9.500
16871.3 0 119.1 19.37 1.061 9.503
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16871.2 0 119.1 19.37 1.061 9.503
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16871.2 1 119.1 19.37 1.061 9.503
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16871.2 0 119.1 19.37 1.061 9.503
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
16871.2 0 119.1 19.37 1.061 9.503
0.000 116.4 19.06 9.500
16871.1 5 119.1 19.37 1.061 9.503
0.000 116.5 19.06 9.500
Fit parameter 5 has pegged
16871.1 5 119.1 19.37 1.061 9.503
0.000 116.5 19.06 9.500
16871.1 5 119.1 19.37 1.061 9.503
0.000 116.5 19.06 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.36E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.36E-02 | 0.30 0.01 0.01 -0.94 -0.17
1.72E-02 | -0.95 -0.06 0.01 -0.29 -0.08
2.22E+00 | -0.07 0.99 0.00 -0.03 0.11
3.73E-01 | -0.02 -0.11 0.00 -0.18 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 119.113 +/- 0.162774 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.47803 1
3 3 1 gaussian norm 1.06114 +/- 0.495047E-02 1
4 4 2 powerlaw PhoIndex 9.50316 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 116.455 +/- 0.167371 2
7 7 3 gaussian Sigma keV 19.0609 +/- 0.618408 2
8 3 3 gaussian norm 1.06114 = 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 = 16871.06 using 198 PHA bins.
Reduced chi-squared = 88.79506 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 ( 85.640) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 85.640) > 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 0.8893 photons ( 1.7779E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8552 photons ( 1.6847E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:21:57 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.516 +/- 5.7300E-03
Net count rate (cts/s) for file 2 2.516 +/- 5.7300E-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 = 804958.8 using 168 PHA bins.
Reduced chi-squared = 5030.993 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 26717.92 using 168 PHA bins.
Reduced chi-squared = 166.9870 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
15031.5 -3 85.35 13.98 0.1175 1.095
0.6847 85.50 13.28 1.081
2680.16 -4 69.36 15.92 0.1602 0.9719
0.6662 71.85 14.90 0.9794
1331.36 -2 80.73 7.428 9.6574E-02 1.008
0.7404 79.69 8.814 1.005
1203.64 -3 76.37 14.42 0.1399 1.052
0.8612 77.14 13.14 1.052
861.505 -4 77.41 8.181 0.1009 1.034
0.8503 78.37 9.147 1.035
531.983 -1 75.87 9.682 0.1360 1.039
0.8339 77.40 9.939 1.040
518.330 -2 75.97 9.374 0.1465 1.042
0.8334 77.37 10.91 1.043
500.288 -3 75.94 9.449 0.1461 1.046
0.8466 77.40 9.984 1.047
500.276 -2 75.94 9.491 0.1476 1.046
0.8477 77.38 10.28 1.048
499.713 -3 75.96 9.465 0.1472 1.047
0.8518 77.39 10.09 1.049
499.658 -4 75.95 9.485 0.1475 1.048
0.8535 77.39 10.15 1.049
499.652 0 75.95 9.483 0.1475 1.048
0.8535 77.39 10.14 1.049
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.10E-07 | 0.00 0.00 -0.36 0.63 -0.35 0.00 0.00 0.60
1.05E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.34E-06 | 0.00 0.01 -0.93 -0.23 0.14 0.00 0.03 -0.24
1.23E-03 | 0.04 0.01 -0.01 -0.27 -0.92 0.04 0.14 -0.25
2.10E-03 | 0.00 -0.08 0.03 0.04 0.13 0.02 0.99 0.04
4.39E-02 | 0.72 0.69 0.01 0.01 0.03 -0.02 0.05 0.01
6.30E-02 | -0.42 0.42 0.00 -0.01 -0.04 -0.80 0.05 -0.01
5.12E-02 | -0.55 0.58 0.00 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 75.9526 +/- 0.222432 1
2 2 1 gaussian Sigma keV 9.48320 +/- 0.222352 1
3 3 1 gaussian norm 0.147513 +/- 0.317073E-02 1
4 4 2 powerlaw PhoIndex 1.04795 +/- 0.101765E-01 1
5 5 2 powerlaw norm 0.853544 +/- 0.347891E-01 1
6 6 3 gaussian LineE keV 77.3930 +/- 0.242227 2
7 7 3 gaussian Sigma keV 10.1366 +/- 0.491501E-01 2
8 3 3 gaussian norm 0.147513 = par 3 2
9 8 4 powerlaw PhoIndex 1.04915 +/- 0.977525E-02 2
10 5 4 powerlaw norm 0.853544 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 499.6523 using 168 PHA bins.
Reduced chi-squared = 3.122827 for 160 degrees of freedom
Null hypothesis probability = 1.341E-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 ( 2.992) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.992) > 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 0.9324 photons ( 1.1063E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9284 photons ( 1.1049E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
110.1595
=====best line=====
75.9542 0.222315
=====best sigma=====
9.47883 0.222174
=====norm=====
0.147424 0.316690E-02
=====phoindx=====
1.04794 0.101727E-01
=====pow_norm=====
0.853606 0.347781E-01
=====best line=====
77.3944 0.241484
=====best sigma=====
10.1259 0.512001E-01
=====norm=====
0.147424 par
=====phoindx=====
1.04914 0.977155E-02
=====pow_norm=====
0.853606 par
=====redu_chi=====
3.122853
=====area_flux=====
0.9324
=====area_flux_f=====
0.9284
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 0 1 640 2000 1215.2672 0 0.147424 0.316690E-02 9.47883 0.222174 1.04794 0.101727E-01 0.853606 0.347781E-01 0.9324 640 2000 1238.3104 0 0.147424 0.316690E-02 10.1259 0.512001E-01 1.04914 0.977155E-02 0.853606 0.347781E-01 0.9284 3.122853 1
=====redu_chi=====
506.5095
=====best line=====
119.113 0.162774
=====best sigma=====
19.3655 1.47803
=====norm=====
1.06114 0.495047E-02
=====phoindx=====
9.50316 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.455 0.167371
=====best sigma=====
19.0609 0.618408
=====norm=====
1.06114 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
88.79506
=====area_flux=====
0.8893
=====area_flux_f=====
0.8552
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 0 1 1600 3200 1905.808 0 1.06114 0.495047E-02 309.848 23.64848 9.50316 -1.00000 0.00000 -1.00000 0.8893 1600 3200 1863.28 0 1.06114 0.495047E-02 304.9744 9.894528 9.50000 -1.00000 0.00000 -1.00000 0.8552 88.79506 1
=====redu_chi=====
166.9870
=====best line=====
75.9526 0.222432
=====best sigma=====
9.48320 0.222352
=====norm=====
0.147513 0.317073E-02
=====phoindx=====
1.04795 0.101765E-01
=====pow_norm=====
0.853544 0.347891E-01
=====best line=====
77.3930 0.242227
=====best sigma=====
10.1366 0.491501E-01
=====norm=====
0.147513 par
=====phoindx=====
1.04915 0.977525E-02
=====pow_norm=====
0.853544 par
=====redu_chi=====
3.122827
=====area_flux=====
0.9324
=====area_flux_f=====
0.9284
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 0 1 640 2000 1215.2416 0 0.147513 0.317073E-02 9.48320 0.222352 1.04795 0.101765E-01 0.853544 0.347891E-01 0.9324 640 2000 1238.288 0 0.147513 0.317073E-02 10.1366 0.491501E-01 1.04915 0.977525E-02 0.853544 0.347891E-01 0.9284 3.122827 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:21:57 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.839 +/- 6.0867E-03
Net count rate (cts/s) for file 2 2.839 +/- 6.0867E-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 = 614164.8 using 168 PHA bins.
Reduced chi-squared = 3838.530 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13739.45 using 168 PHA bins.
Reduced chi-squared = 85.87156 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1955.53 -3 83.26 15.95 0.1654 0.9105
0.4684 83.95 15.31 0.9082
1241.28 -3 75.17 7.917 8.3853E-02 0.8146
0.3403 77.80 8.505 0.8186
1118.11 -3 77.39 10.58 0.1390 0.8885
0.4339 80.21 15.96 0.8877
768.909 -4 77.74 9.638 0.1183 0.9137
0.5073 79.63 7.146 0.9148
472.329 -5 77.34 8.934 0.1366 0.9236
0.5263 79.91 9.833 0.9248
468.756 -1 77.27 9.291 0.1407 0.9238
0.5256 79.88 10.22 0.9256
467.552 -2 77.32 9.266 0.1413 0.9246
0.5271 79.86 9.999 0.9265
467.400 -3 77.33 9.298 0.1418 0.9270
0.5320 79.88 10.11 0.9288
467.392 -4 77.34 9.286 0.1417 0.9277
0.5338 79.88 10.03 0.9296
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.50E-07 | 0.00 0.00 -0.31 0.58 -0.51 0.00 0.00 0.55
9.96E-07 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.12E-06 | 0.00 0.01 -0.95 -0.17 0.18 0.00 0.03 -0.18
5.70E-04 | 0.02 0.01 -0.02 -0.39 -0.84 0.02 0.06 -0.37
2.65E-03 | 0.00 0.09 -0.02 -0.03 -0.05 -0.02 -0.99 -0.03
4.69E-02 | 0.76 0.64 0.01 0.01 0.02 -0.06 0.06 0.01
6.41E-02 | 0.32 -0.29 0.00 0.01 0.02 0.90 -0.04 0.01
5.30E-02 | -0.56 0.70 0.01 0.00 0.00 0.43 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 77.3393 +/- 0.224936 1
2 2 1 gaussian Sigma keV 9.28641 +/- 0.225907 1
3 3 1 gaussian norm 0.141695 +/- 0.315716E-02 1
4 4 2 powerlaw PhoIndex 0.927721 +/- 0.100487E-01 1
5 5 2 powerlaw norm 0.533819 +/- 0.213730E-01 1
6 6 3 gaussian LineE keV 79.8824 +/- 0.248937 2
7 7 3 gaussian Sigma keV 10.0250 +/- 0.551155E-01 2
8 3 3 gaussian norm 0.141695 = par 3 2
9 8 4 powerlaw PhoIndex 0.929563 +/- 0.965762E-02 2
10 5 4 powerlaw norm 0.533819 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 467.3921 using 168 PHA bins.
Reduced chi-squared = 2.921201 for 160 degrees of freedom
Null hypothesis probability = 7.189E-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 ( 2.799) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.799) > 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 0.9603 photons ( 1.1543E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9539 photons ( 1.1523E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:21:57 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.418 +/- 9.1525E-03
Net count rate (cts/s) for file 2 6.418 +/- 9.1525E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.579 +/- 1.0992E-02( 55.8% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.579 +/- 1.0992E-02( 55.8% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_fast.pha
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 100 in dataset 1
ignoring channels 200 - 256 in dataset 1
ignoring channels 1 - 100 in dataset 2
ignoring channels 200 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 130 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 5 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 130.000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 5.00000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 130.000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 5.00000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 1.0266835E+07 using 198 PHA bins.
Reduced chi-squared = 54035.97 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 93700.92 using 198 PHA bins.
Reduced chi-squared = 493.1628 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
54070.4 -3 115.2 18.94 0.4045 2.856
0.1688 105.6 18.88 2.790
33616.6 -2 103.7 19.27 1.546 8.172
7.9550E-02 106.8 19.23 8.743
31303.7 -1 105.1 19.32 1.503 9.236
3.1571E-02 107.4 19.32 9.296
29535.6 -1 106.6 19.35 1.473 3.158
8.7931E-04 108.3 19.35 9.471
27948.5 -1 107.4 19.36 1.441 6.713
3316. 109.2 19.36 9.498
26539.8 -1 108.7 19.36 1.420 8.852
1063. 110.1 19.36 9.499
25475.8 -1 109.8 19.37 1.404 9.419
277.9 110.8 19.36 9.500
24305.9 -1 110.7 19.37 1.381 9.477
14.71 111.5 19.37 9.500
23189.1 -1 111.5 19.37 1.358 9.494
3.793 112.2 19.37 9.500
22287.6 -1 112.3 19.37 1.339 9.497
0.8599 112.8 19.37 9.500
21513.3 -1 112.9 19.37 1.322 9.499
5.5475E-02 113.3 19.37 9.500
20839.5 -1 113.5 19.37 1.306 9.500
3.7165E-03 113.8 19.37 9.500
20288.4 -1 114.0 19.37 1.292 9.500
1.3807E-03 114.2 19.37 9.500
19933.4 -1 114.3 19.37 1.283 9.500
6.3657E-04 114.5 19.37 9.500
19522.4 -1 114.7 19.37 1.271 9.500
2.3336E-04 114.8 19.37 9.500
19374.1 -1 114.9 19.37 1.268 9.500
1.8626E-05 115.0 19.37 9.500
18960.4 -1 115.3 19.37 1.255 9.500
1.8277E-06 115.3 19.37 9.500
18845.7 -1 115.4 19.37 1.251 9.500
2.6085E-07 115.3 19.37 9.500
18646.1 -1 115.7 19.37 1.245 9.500
1.7214E-08 115.5 19.37 9.500
18610.8 -1 115.7 19.37 1.244 9.500
4.7172E-09 115.6 19.37 9.500
18598.7 -1 115.7 19.37 1.244 9.500
1.5784E-09 115.6 19.37 9.500
18502.2 -1 115.8 19.37 1.240 9.500
7.8302E-10 115.6 19.37 9.500
17570.5 0 116.5 19.37 1.195 9.500
2.2364E-10 116.2 19.37 9.500
17023.7 0 117.2 19.37 1.167 9.500
8.1777E-11 116.7 19.37 9.500
16676.4 0 117.8 19.37 1.147 9.500
1.0145E-11 117.2 19.37 9.500
16453.7 0 118.3 19.37 1.132 9.500
9.4698E-13 117.5 19.37 9.500
16310.5 0 118.7 19.37 1.122 9.500
3.6280E-13 117.8 19.37 9.500
Fit parameter 5 has pegged
16141.6 0 119.2 19.37 1.104 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
16099.0 0 119.3 19.37 1.099 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
16072.7 0 119.4 19.37 1.095 9.500
0.000 118.0 19.37 9.500
Fit parameter 5 has pegged
16054.4 0 119.5 19.37 1.093 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
16038.4 0 119.6 19.37 1.090 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
16028.5 0 119.6 19.37 1.089 9.500
0.000 118.1 19.37 9.500
Fit parameter 5 has pegged
16020.3 0 119.7 19.37 1.088 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
16017.5 0 119.7 19.37 1.088 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
16014.3 0 119.7 19.37 1.087 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
16010.9 0 119.7 19.37 1.087 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
16010.5 0 119.7 19.37 1.087 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
16005.0 0 119.8 19.37 1.086 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
16003.8 0 119.8 19.37 1.085 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
16003.6 0 119.8 19.37 1.085 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
15994.2 0 119.8 19.37 1.084 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
15985.6 0 119.9 19.37 1.083 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
15977.9 0 120.0 19.37 1.082 9.500
0.000 118.2 19.37 9.500
Fit parameter 5 has pegged
15970.7 0 120.0 19.37 1.080 9.500
0.000 118.2 19.36 9.500
Fit parameter 5 has pegged
15964.4 0 120.1 19.37 1.079 9.500
0.000 118.2 19.36 9.500
Fit parameter 5 has pegged
15958.6 0 120.1 19.37 1.078 9.500
0.000 118.2 19.36 9.500
Fit parameter 5 has pegged
15953.3 0 120.2 19.37 1.077 9.500
0.000 118.2 19.36 9.500
Fit parameter 5 has pegged
15948.5 0 120.2 19.37 1.076 9.500
0.000 118.2 19.36 9.500
Fit parameter 5 has pegged
15944.1 0 120.2 19.37 1.075 9.500
0.000 118.2 19.36 9.500
Fit parameter 5 has pegged
15940.1 0 120.3 19.37 1.075 9.500
0.000 118.3 19.36 9.500
Fit parameter 5 has pegged
15936.4 0 120.3 19.37 1.074 9.500
0.000 118.3 19.36 9.500
Fit parameter 5 has pegged
15933.1 0 120.4 19.37 1.073 9.500
0.000 118.3 19.35 9.500
Fit parameter 5 has pegged
15930.0 0 120.4 19.37 1.072 9.500
0.000 118.3 19.35 9.500
Fit parameter 5 has pegged
15927.2 0 120.4 19.37 1.072 9.500
0.000 118.3 19.35 9.500
Fit parameter 5 has pegged
15924.7 0 120.4 19.37 1.071 9.500
0.000 118.3 19.35 9.500
Fit parameter 5 has pegged
15922.3 0 120.5 19.37 1.071 9.500
0.000 118.3 19.35 9.500
Fit parameter 5 has pegged
15920.1 0 120.5 19.37 1.070 9.500
0.000 118.3 19.35 9.500
Fit parameter 5 has pegged
15918.1 0 120.5 19.37 1.070 9.500
0.000 118.3 19.34 9.500
Fit parameter 5 has pegged
15916.3 0 120.6 19.37 1.069 9.500
0.000 118.3 19.34 9.500
Fit parameter 5 has pegged
15914.5 0 120.6 19.37 1.069 9.500
0.000 118.3 19.34 9.500
Fit parameter 5 has pegged
15913.0 0 120.6 19.37 1.068 9.500
0.000 118.3 19.33 9.500
Fit parameter 5 has pegged
15911.5 0 120.6 19.37 1.068 9.500
0.000 118.3 19.33 9.500
Fit parameter 5 has pegged
15910.1 0 120.6 19.37 1.067 9.500
0.000 118.3 19.33 9.500
Fit parameter 5 has pegged
15908.9 0 120.7 19.37 1.067 9.500
0.000 118.3 19.33 9.500
Fit parameter 5 has pegged
15907.8 0 120.7 19.37 1.066 9.500
0.000 118.4 19.32 9.500
Fit parameter 5 has pegged
15906.6 0 120.7 19.37 1.066 9.500
0.000 118.4 19.32 9.500
Fit parameter 5 has pegged
15905.6 0 120.7 19.37 1.066 9.500
0.000 118.4 19.32 9.500
Fit parameter 5 has pegged
15904.6 0 120.7 19.37 1.065 9.500
0.000 118.4 19.31 9.500
Fit parameter 5 has pegged
15903.8 0 120.7 19.37 1.065 9.500
0.000 118.4 19.31 9.500
Fit parameter 5 has pegged
15902.9 0 120.8 19.37 1.065 9.500
0.000 118.4 19.31 9.500
Fit parameter 5 has pegged
15902.1 0 120.8 19.37 1.065 9.500
0.000 118.4 19.31 9.500
Fit parameter 5 has pegged
15901.5 0 120.8 19.37 1.064 9.500
0.000 118.4 19.30 9.500
Fit parameter 5 has pegged
15900.8 0 120.8 19.37 1.064 9.500
0.000 118.4 19.30 9.500
Fit parameter 5 has pegged
15900.2 0 120.8 19.37 1.064 9.500
0.000 118.4 19.30 9.500
Fit parameter 5 has pegged
15899.5 0 120.8 19.37 1.064 9.500
0.000 118.4 19.30 9.500
Fit parameter 5 has pegged
15899.1 0 120.8 19.37 1.063 9.500
0.000 118.4 19.30 9.500
Fit parameter 5 has pegged
15898.6 0 120.8 19.37 1.063 9.500
0.000 118.4 19.29 9.500
Fit parameter 5 has pegged
15898.0 0 120.9 19.37 1.063 9.500
0.000 118.4 19.29 9.500
Fit parameter 5 has pegged
15897.6 0 120.9 19.37 1.063 9.500
0.000 118.4 19.29 9.500
Fit parameter 5 has pegged
15897.2 0 120.9 19.37 1.062 9.500
0.000 118.5 19.29 9.500
Fit parameter 5 has pegged
15896.8 0 120.9 19.37 1.062 9.500
0.000 118.5 19.29 9.500
Fit parameter 5 has pegged
15896.4 0 120.9 19.37 1.062 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
15896.2 0 120.9 19.37 1.062 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
15895.7 0 120.9 19.37 1.062 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
15895.4 0 120.9 19.37 1.062 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
15895.1 0 120.9 19.37 1.061 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
15894.8 0 120.9 19.37 1.061 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
15894.6 0 120.9 19.37 1.061 9.500
0.000 118.5 19.27 9.500
Fit parameter 5 has pegged
15894.4 0 120.9 19.37 1.061 9.500
0.000 118.5 19.27 9.500
Fit parameter 5 has pegged
15894.1 0 120.9 19.37 1.061 9.500
0.000 118.5 19.27 9.500
Fit parameter 5 has pegged
15893.9 0 120.9 19.37 1.061 9.500
0.000 118.5 19.27 9.500
Fit parameter 5 has pegged
15893.6 0 120.9 19.37 1.061 9.500
0.000 118.5 19.26 9.500
Fit parameter 5 has pegged
15893.4 0 121.0 19.37 1.060 9.500
0.000 118.5 19.26 9.500
Fit parameter 5 has pegged
15893.2 0 121.0 19.37 1.060 9.500
0.000 118.5 19.26 9.500
Fit parameter 5 has pegged
15893.0 0 121.0 19.37 1.060 9.500
0.000 118.5 19.26 9.500
Fit parameter 5 has pegged
15892.8 0 121.0 19.37 1.060 9.500
0.000 118.5 19.26 9.500
Fit parameter 5 has pegged
15892.8 0 121.0 19.37 1.060 9.500
0.000 118.5 19.26 9.500
Fit parameter 5 has pegged
15892.5 0 121.0 19.37 1.060 9.500
0.000 118.5 19.25 9.500
Fit parameter 5 has pegged
15892.4 0 121.0 19.37 1.060 9.500
0.000 118.5 19.25 9.500
Fit parameter 5 has pegged
15892.2 0 121.0 19.37 1.060 9.500
0.000 118.5 19.25 9.500
Fit parameter 5 has pegged
15892.2 0 121.0 19.37 1.060 9.500
0.000 118.5 19.25 9.500
Fit parameter 5 has pegged
15892.0 0 121.0 19.37 1.059 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
15891.9 0 121.0 19.37 1.059 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
15891.7 0 121.0 19.37 1.059 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
15891.7 0 121.0 19.37 1.059 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
15891.5 0 121.0 19.37 1.059 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
15891.5 0 121.0 19.37 1.059 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
15891.3 0 121.0 19.37 1.059 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
15891.2 0 121.0 19.37 1.059 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
15891.2 0 121.0 19.37 1.059 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
15891.0 0 121.0 19.37 1.059 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
15890.9 0 121.0 19.37 1.059 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
15890.9 0 121.0 19.37 1.059 9.500
0.000 118.6 19.24 9.500
15890.7 0 121.0 19.37 1.059 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
15890.7 0 121.0 19.37 1.059 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
15890.7 0 121.0 19.37 1.058 9.500
0.000 118.6 19.24 9.500
15890.6 0 121.0 19.37 1.058 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
15890.4 0 121.0 19.37 1.058 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
15890.3 0 121.0 19.37 1.058 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
15890.3 0 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15890.2 0 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15890.2 0 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15890.1 0 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15890.1 0 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15890.1 0 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15890.0 1 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15890.0 0 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15890.0 0 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15889.9 1 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15889.9 1 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15889.9 0 121.0 19.37 1.058 9.500
0.000 118.6 19.22 9.500
15889.8 0 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15889.8 0 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15889.8 0 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15889.8 4 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
15889.7 4 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
15889.7 4 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
15889.7 6 121.0 19.37 1.058 9.500
0.000 118.6 19.23 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.38E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.41E-02 | 0.24 0.00 0.01 -0.96 -0.11
1.76E-02 | -0.97 -0.05 0.01 -0.24 -0.04
2.47E+00 | -0.05 0.98 0.00 -0.03 0.17
8.15E-01 | 0.00 -0.17 0.00 -0.11 0.98
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 121.049 +/- 0.157186 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.55584 1
3 3 1 gaussian norm 1.05773 +/- 0.474843E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 118.640 +/- 0.163730 2
7 7 3 gaussian Sigma keV 19.2312 +/- 0.921470 2
8 3 3 gaussian norm 1.05773 = 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 = 15889.73 using 198 PHA bins.
Reduced chi-squared = 83.63014 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 ( 80.659) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 80.659) > 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 0.9111 photons ( 1.8395E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8818 photons ( 1.7575E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:21:58 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.839 +/- 6.0867E-03
Net count rate (cts/s) for file 2 2.839 +/- 6.0867E-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 = 709141.5 using 168 PHA bins.
Reduced chi-squared = 4432.134 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 22364.69 using 168 PHA bins.
Reduced chi-squared = 139.7793 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2786.75 -3 85.83 13.62 0.1281 0.9468
0.5305 86.24 12.40 0.9408
1204.67 -4 73.23 13.65 0.1372 0.8676
0.4068 77.03 11.87 0.8715
775.012 -2 80.35 9.145 0.1142 0.8852
0.4532 80.43 9.732 0.8849
698.903 -3 76.75 11.96 0.1437 0.9206
0.5102 79.72 11.82 0.9211
563.341 -4 78.39 9.517 0.1223 0.9264
0.5415 80.15 9.752 0.9278
504.348 -5 77.17 9.471 0.1430 0.9290
0.5362 79.86 11.34 0.9309
469.278 -6 77.40 9.088 0.1383 0.9254
0.5308 79.88 9.934 0.9272
468.427 0 77.36 9.156 0.1390 0.9255
0.5306 79.89 9.947 0.9273
468.017 0 77.34 9.193 0.1396 0.9255
0.5304 79.89 9.965 0.9274
467.427 -1 77.32 9.284 0.1413 0.9258
0.5299 79.88 10.07 0.9277
467.382 -2 77.33 9.286 0.1416 0.9263
0.5306 79.88 10.04 0.9281
467.345 -3 77.33 9.292 0.1418 0.9274
0.5330 79.88 10.07 0.9292
467.344 0 77.33 9.292 0.1418 0.9274
0.5330 79.88 10.07 0.9292
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.51E-07 | 0.00 0.00 -0.31 0.59 -0.51 0.00 0.00 0.55
9.95E-07 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.10E-06 | 0.00 0.01 -0.95 -0.17 0.18 0.00 0.02 -0.18
5.72E-04 | 0.02 0.01 -0.02 -0.39 -0.84 0.02 0.06 -0.37
3.09E-03 | 0.00 0.10 -0.02 -0.02 -0.04 -0.02 -0.99 -0.03
4.69E-02 | 0.76 0.64 0.01 0.01 0.02 -0.06 0.06 0.01
6.35E-02 | 0.33 -0.30 0.00 0.01 0.02 0.89 -0.05 0.01
5.29E-02 | -0.55 0.70 0.01 0.00 0.01 0.45 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 77.3348 +/- 0.224798 1
2 2 1 gaussian Sigma keV 9.29204 +/- 0.225670 1
3 3 1 gaussian norm 0.141766 +/- 0.315176E-02 1
4 4 2 powerlaw PhoIndex 0.927406 +/- 0.100422E-01 1
5 5 2 powerlaw norm 0.533048 +/- 0.214002E-01 1
6 6 3 gaussian LineE keV 79.8817 +/- 0.247479 2
7 7 3 gaussian Sigma keV 10.0654 +/- 0.595353E-01 2
8 3 3 gaussian norm 0.141766 = par 3 2
9 8 4 powerlaw PhoIndex 0.929244 +/- 0.965136E-02 2
10 5 4 powerlaw norm 0.533048 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 467.3441 using 168 PHA bins.
Reduced chi-squared = 2.920900 for 160 degrees of freedom
Null hypothesis probability = 7.305E-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 ( 2.798) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.798) > 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 0.9603 photons ( 1.1543E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9539 photons ( 1.1523E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
85.87156
=====best line=====
77.3393 0.224936
=====best sigma=====
9.28641 0.225907
=====norm=====
0.141695 0.315716E-02
=====phoindx=====
0.927721 0.100487E-01
=====pow_norm=====
0.533819 0.213730E-01
=====best line=====
79.8824 0.248937
=====best sigma=====
10.0250 0.551155E-01
=====norm=====
0.141695 par
=====phoindx=====
0.929563 0.965762E-02
=====pow_norm=====
0.533819 par
=====redu_chi=====
2.921201
=====area_flux=====
0.9603
=====area_flux_f=====
0.9539
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 1 1 640 2000 1237.4288 0 0.141695 0.315716E-02 9.28641 0.225907 0.927721 0.100487E-01 0.533819 0.213730E-01 0.9603 640 2000 1278.1184 0 0.141695 0.315716E-02 10.0250 0.551155E-01 0.929563 0.965762E-02 0.533819 0.213730E-01 0.9539 2.921201 0
=====redu_chi=====
493.1628
=====best line=====
121.049 0.157186
=====best sigma=====
19.3655 1.55584
=====norm=====
1.05773 0.474843E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
118.640 0.163730
=====best sigma=====
19.2312 0.921470
=====norm=====
1.05773 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
83.63014
=====area_flux=====
0.9111
=====area_flux_f=====
0.8818
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 1 1 1600 3200 1936.784 0 1.05773 0.474843E-02 309.848 24.89344 9.50000 -1.00000 0.00000 -1.00000 0.9111 1600 3200 1898.24 0 1.05773 0.474843E-02 307.6992 14.74352 9.50000 -1.00000 0.00000 -1.00000 0.8818 83.63014 1
=====redu_chi=====
139.7793
=====best line=====
77.3348 0.224798
=====best sigma=====
9.29204 0.225670
=====norm=====
0.141766 0.315176E-02
=====phoindx=====
0.927406 0.100422E-01
=====pow_norm=====
0.533048 0.214002E-01
=====best line=====
79.8817 0.247479
=====best sigma=====
10.0654 0.595353E-01
=====norm=====
0.141766 par
=====phoindx=====
0.929244 0.965136E-02
=====pow_norm=====
0.533048 par
=====redu_chi=====
2.920900
=====area_flux=====
0.9603
=====area_flux_f=====
0.9539
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 1 1 640 2000 1237.3568 0 0.141766 0.315176E-02 9.29204 0.225670 0.927406 0.100422E-01 0.533048 0.214002E-01 0.9603 640 2000 1278.1072 0 0.141766 0.315176E-02 10.0654 0.595353E-01 0.929244 0.965136E-02 0.533048 0.214002E-01 0.9539 2.920900 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:21:58 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.437 +/- 6.6978E-03
Net count rate (cts/s) for file 2 3.437 +/- 6.6978E-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 = 340102.0 using 168 PHA bins.
Reduced chi-squared = 2125.638 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 22730.68 using 168 PHA bins.
Reduced chi-squared = 142.0667 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
7362.38 -3 82.42 16.87 0.2819 1.025
0.8121 82.89 16.73 1.019
2134.73 -3 73.74 9.310 0.1954 0.8345
0.4506 75.02 9.675 0.8433
1385.09 -3 75.20 9.002 0.1964 0.9155
0.6366 76.45 9.770 0.9127
672.692 -4 75.20 9.228 0.2007 0.9347
0.7359 76.60 9.783 0.9355
650.247 -5 75.25 9.156 0.2000 0.9336
0.7434 76.62 9.760 0.9355
650.216 -6 75.24 9.187 0.2004 0.9335
0.7430 76.61 9.775 0.9355
650.212 -7 75.24 9.174 0.2002 0.9335
0.7431 76.61 9.768 0.9355
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.78E-07 | 0.00 0.00 -0.23 0.65 -0.40 0.00 0.00 0.60
7.35E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.73
6.84E-06 | 0.00 0.01 -0.97 -0.14 0.11 0.00 0.01 -0.15
6.84E-04 | 0.03 0.01 -0.01 -0.30 -0.91 0.03 0.01 -0.29
2.41E-02 | -0.15 -0.77 0.00 0.00 0.00 0.08 0.61 0.00
5.26E-02 | 0.26 -0.55 -0.01 0.00 0.02 0.41 -0.68 0.00
3.36E-02 | 0.95 -0.01 0.00 0.01 0.02 -0.22 0.24 0.01
3.79E-02 | 0.12 0.32 0.00 0.01 0.03 0.88 0.32 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.2419 +/- 0.186293 1
2 2 1 gaussian Sigma keV 9.17425 +/- 0.184389 1
3 3 1 gaussian norm 0.200233 +/- 0.360595E-02 1
4 4 2 powerlaw PhoIndex 0.933478 +/- 0.838550E-02 1
5 5 2 powerlaw norm 0.743127 +/- 0.252117E-01 1
6 6 3 gaussian LineE keV 76.6131 +/- 0.200248 2
7 7 3 gaussian Sigma keV 9.76788 +/- 0.198331 2
8 3 3 gaussian norm 0.200233 = par 3 2
9 8 4 powerlaw PhoIndex 0.935483 +/- 0.805305E-02 2
10 5 4 powerlaw norm 0.743127 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 650.2123 using 168 PHA bins.
Reduced chi-squared = 4.063827 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 ( 3.893) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.893) > 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 1.312 photons ( 1.5701E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.303 photons ( 1.5629E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:21:58 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.834 +/- 1.0112E-02
Net count rate (cts/s) for file 2 7.834 +/- 1.0112E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.397 +/- 1.2129E-02( 56.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.397 +/- 1.2129E-02( 56.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.5194151E+07 using 198 PHA bins.
Reduced chi-squared = 79969.22 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 89584.84 using 198 PHA bins.
Reduced chi-squared = 471.4992 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
53535.3 -3 110.1 18.46 0.4163 2.744
9.5011E-02 102.2 18.47 2.679
53410.8 2 110.2 18.45 0.4172 2.548
0.1656 102.3 18.47 2.568
52154.6 1 110.5 18.38 0.4261 2.186
0.4762 102.9 18.46 2.240
42234.5 0 113.5 17.54 0.5026 2.086
0.7483 107.9 18.33 2.136
23110.6 0 119.3 17.57 0.8120 2.117
0.4377 119.1 11.77 2.333
15608.5 -1 116.3 18.72 1.081 3.343
0.1774 116.1 16.25 1.702
15152.4 -2 113.9 19.27 1.234 7.323
8.7580E-02 113.2 17.95 1.793
15053.8 -1 113.8 19.33 1.226 9.225
3.0264E-02 112.8 18.28 2.636
14976.7 0 113.9 19.36 1.217 9.393
1.0982E-02 112.7 18.20 6.473
14955.6 0 113.9 19.37 1.215 9.486
9.7767E-05 112.6 18.17 9.301
14941.7 0 113.9 19.37 1.214 9.495
4.3910E-05 112.6 18.15 9.460
14931.3 0 113.9 19.37 1.212 9.500
1.4795E-05 112.6 18.13 9.488
14923.1 0 113.9 19.37 1.211 9.500
6.6657E-06 112.6 18.11 9.494
14917.0 0 113.9 19.37 1.210 9.500
2.5340E-06 112.5 18.10 9.498
14912.0 0 113.9 19.37 1.209 9.500
4.5190E-07 112.5 18.09 9.500
14908.1 0 113.9 19.37 1.208 9.500
1.9085E-07 112.5 18.07 9.500
14904.9 0 113.9 19.37 1.207 9.500
6.0841E-08 112.5 18.07 9.500
14900.1 0 113.9 19.37 1.205 9.500
1.1654E-08 112.5 18.05 9.500
14898.3 0 113.9 19.37 1.204 9.500
3.2847E-09 112.5 18.04 9.500
14894.2 0 113.9 19.37 1.203 9.500
1.0368E-10 112.5 18.03 9.500
14892.1 0 113.9 19.37 1.202 9.500
3.5561E-11 112.5 18.02 9.500
14890.4 0 113.9 19.37 1.202 9.500
1.6267E-12 112.5 18.01 9.500
14889.2 0 113.9 19.37 1.201 9.500
5.6974E-13 112.5 18.00 9.500
14888.0 0 113.9 19.37 1.201 9.500
4.2274E-14 112.5 17.99 9.500
Fit parameter 5 has pegged
14879.3 0 113.9 19.35 1.197 9.500
0.000 112.5 17.90 9.500
Fit parameter 5 has pegged
14873.4 -1 114.0 19.32 1.188 9.500
0.000 112.8 17.77 9.500
Fit parameter 5 has pegged
14871.6 -2 114.1 19.24 1.182 9.500
0.000 112.9 17.73 9.500
Fit parameter 5 has pegged
14871.5 -3 114.1 19.27 1.182 9.500
0.000 113.0 17.72 9.500
Fit parameter 5 has pegged
14871.5 0 114.1 19.27 1.182 9.500
0.000 113.0 17.72 9.500
14871.4 4 114.1 19.27 1.182 9.500
0.000 113.0 17.72 9.500
Fit parameter 5 has pegged
14871.4 4 114.1 19.27 1.182 9.500
0.000 113.0 17.72 9.500
14871.4 5 114.1 19.27 1.182 9.500
0.000 113.0 17.72 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.83E-05 | -0.01 0.00 -1.00 -0.01 0.01
4.37E-03 | 0.01 0.00 0.00 0.46 0.89
1.60E-02 | -0.96 -0.10 0.01 0.25 -0.12
3.32E-02 | 0.27 0.09 -0.02 0.85 -0.45
1.23E+00 | 0.12 -0.99 0.00 0.05 -0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 114.105 +/- 0.188763 1
2 2 1 gaussian Sigma keV 19.2711 +/- 1.10025 1
3 3 1 gaussian norm 1.18215 +/- 0.628644E-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 112.972 +/- 0.169402 2
7 7 3 gaussian Sigma keV 17.7227 +/- 0.105744 2
8 3 3 gaussian norm 1.18215 = 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 = 14871.42 using 198 PHA bins.
Reduced chi-squared = 78.27065 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 ( 75.489) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 75.489) > 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 0.9077 photons ( 1.7708E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9077 photons ( 1.7454E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:21:58 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.437 +/- 6.6978E-03
Net count rate (cts/s) for file 2 3.437 +/- 6.6978E-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 = 424086.4 using 168 PHA bins.
Reduced chi-squared = 2650.540 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 36410.34 using 168 PHA bins.
Reduced chi-squared = 227.5646 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
9516.30 -3 85.54 14.55 0.1811 1.014
0.8250 85.66 14.11 1.005
2546.27 -4 69.51 17.11 0.2515 0.9024
0.6145 71.56 16.58 0.9087
1668.80 -1 77.46 7.003 0.2138 0.9024
0.6300 77.20 8.722 0.9028
690.890 -2 76.06 9.001 0.1968 0.9086
0.6679 76.64 9.642 0.9101
655.834 -3 75.18 9.371 0.2018 0.9278
0.7198 76.56 9.838 0.9290
650.787 -4 75.28 9.101 0.1993 0.9337
0.7430 76.62 9.730 0.9354
650.262 -5 75.23 9.210 0.2007 0.9334
0.7427 76.61 9.788 0.9354
650.221 -6 75.25 9.165 0.2001 0.9335
0.7433 76.61 9.762 0.9355
650.213 -7 75.24 9.184 0.2004 0.9335
0.7430 76.61 9.773 0.9355
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.78E-07 | 0.00 0.00 -0.23 0.65 -0.40 0.00 0.00 0.60
7.35E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.73
6.82E-06 | 0.00 0.01 -0.97 -0.14 0.11 0.00 0.01 -0.15
6.84E-04 | 0.03 0.01 -0.01 -0.30 -0.91 0.03 0.01 -0.29
2.40E-02 | -0.15 -0.78 0.00 0.00 0.00 0.08 0.61 0.00
5.25E-02 | 0.26 -0.54 -0.01 0.00 0.02 0.41 -0.68 0.00
3.34E-02 | 0.95 -0.01 0.00 0.01 0.02 -0.21 0.24 0.01
3.79E-02 | 0.11 0.32 0.00 0.01 0.03 0.88 0.32 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.2374 +/- 0.185873 1
2 2 1 gaussian Sigma keV 9.18381 +/- 0.183925 1
3 3 1 gaussian norm 0.200356 +/- 0.359814E-02 1
4 4 2 powerlaw PhoIndex 0.933460 +/- 0.838068E-02 1
5 5 2 powerlaw norm 0.743004 +/- 0.252062E-01 1
6 6 3 gaussian LineE keV 76.6115 +/- 0.200148 2
7 7 3 gaussian Sigma keV 9.77321 +/- 0.198147 2
8 3 3 gaussian norm 0.200356 = par 3 2
9 8 4 powerlaw PhoIndex 0.935470 +/- 0.804842E-02 2
10 5 4 powerlaw norm 0.743004 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 650.2133 using 168 PHA bins.
Reduced chi-squared = 4.063833 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 ( 3.893) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.893) > 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 1.312 photons ( 1.5701E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.303 photons ( 1.5629E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
142.0667
=====best line=====
75.2419 0.186293
=====best sigma=====
9.17425 0.184389
=====norm=====
0.200233 0.360595E-02
=====phoindx=====
0.933478 0.838550E-02
=====pow_norm=====
0.743127 0.252117E-01
=====best line=====
76.6131 0.200248
=====best sigma=====
9.76788 0.198331
=====norm=====
0.200233 par
=====phoindx=====
0.935483 0.805305E-02
=====pow_norm=====
0.743127 par
=====redu_chi=====
4.063827
=====area_flux=====
1.312
=====area_flux_f=====
1.303
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 2 1 640 2000 1203.8704 0 0.200233 0.360595E-02 9.17425 0.184389 0.933478 0.838550E-02 0.743127 0.252117E-01 1.312 640 2000 1225.8096 0 0.200233 0.360595E-02 9.76788 0.198331 0.935483 0.805305E-02 0.743127 0.252117E-01 1.303 4.063827 1
=====redu_chi=====
471.4992
=====best line=====
114.105 0.188763
=====best sigma=====
19.2711 1.10025
=====norm=====
1.18215 0.628644E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
112.972 0.169402
=====best sigma=====
17.7227 0.105744
=====norm=====
1.18215 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
78.27065
=====area_flux=====
0.9077
=====area_flux_f=====
0.9077
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 2 1 1600 3200 1825.68 0 1.18215 0.628644E-02 308.3376 17.604 9.50000 -1.00000 0.00000 -1.00000 0.9077 1600 3200 1807.552 0 1.18215 0.628644E-02 283.5632 1.691904 9.50000 -1.00000 0.00000 -1.00000 0.9077 78.27065 1
=====redu_chi=====
227.5646
=====best line=====
75.2374 0.185873
=====best sigma=====
9.18381 0.183925
=====norm=====
0.200356 0.359814E-02
=====phoindx=====
0.933460 0.838068E-02
=====pow_norm=====
0.743004 0.252062E-01
=====best line=====
76.6115 0.200148
=====best sigma=====
9.77321 0.198147
=====norm=====
0.200356 par
=====phoindx=====
0.935470 0.804842E-02
=====pow_norm=====
0.743004 par
=====redu_chi=====
4.063833
=====area_flux=====
1.312
=====area_flux_f=====
1.303
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 2 1 640 2000 1203.7984 0 0.200356 0.359814E-02 9.18381 0.183925 0.933460 0.838068E-02 0.743004 0.252062E-01 1.312 640 2000 1225.784 0 0.200356 0.359814E-02 9.77321 0.198147 0.935470 0.804842E-02 0.743004 0.252062E-01 1.303 4.063833 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:21:58 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.519 +/- 5.7338E-03
Net count rate (cts/s) for file 2 2.519 +/- 5.7338E-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 = 678890.2 using 168 PHA bins.
Reduced chi-squared = 4243.064 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18371.46 using 168 PHA bins.
Reduced chi-squared = 114.8216 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
10452.0 -3 82.62 17.06 0.1950 1.090
0.6683 82.92 16.86 1.079
1374.92 -3 70.50 18.57 0.2246 0.9305
0.4957 72.29 18.24 0.9386
1311.20 0 70.60 18.11 0.2244 0.9312
0.4948 72.36 17.96 0.9387
1213.69 0 71.40 9.816 0.2221 0.9340
0.4920 72.89 14.82 0.9383
610.011 -1 72.01 11.17 0.1694 0.9285
0.5086 74.18 11.76 0.9306
551.591 -2 72.95 9.859 0.1398 0.9347
0.5393 74.87 10.09 0.9352
532.958 -3 72.75 9.494 0.1459 0.9542
0.5807 74.91 10.57 0.9546
529.517 -4 72.74 9.507 0.1457 0.9603
0.5986 74.99 10.36 0.9611
529.322 -5 72.74 9.515 0.1459 0.9601
0.5990 74.97 10.40 0.9612
529.321 -6 72.74 9.512 0.1459 0.9601
0.5992 74.97 10.39 0.9613
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.05E-07 | 0.00 0.00 -0.32 0.60 -0.47 0.00 0.00 0.57
1.02E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.66E-06 | 0.00 0.01 -0.95 -0.19 0.16 0.00 0.04 -0.20
6.65E-04 | 0.03 0.00 0.00 -0.36 -0.87 0.03 0.00 -0.34
1.43E-03 | -0.01 0.06 -0.03 0.00 0.01 -0.02 -1.00 -0.01
4.69E-02 | 0.71 0.70 0.01 0.01 0.02 0.01 0.04 0.01
7.51E-02 | 0.40 -0.42 0.00 0.01 0.03 0.81 -0.04 0.01
5.62E-02 | -0.57 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 72.7423 +/- 0.233428 1
2 2 1 gaussian Sigma keV 9.51161 +/- 0.234093 1
3 3 1 gaussian norm 0.145858 +/- 0.331708E-02 1
4 4 2 powerlaw PhoIndex 0.960119 +/- 0.994456E-02 1
5 5 2 powerlaw norm 0.599165 +/- 0.243671E-01 1
6 6 3 gaussian LineE keV 74.9744 +/- 0.261853 2
7 7 3 gaussian Sigma keV 10.3901 +/- 0.409151E-01 2
8 3 3 gaussian norm 0.145858 = par 3 2
9 8 4 powerlaw PhoIndex 0.961277 +/- 0.954238E-02 2
10 5 4 powerlaw norm 0.599165 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 529.3207 using 168 PHA bins.
Reduced chi-squared = 3.308254 for 160 degrees of freedom
Null hypothesis probability = 4.500E-41
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.170) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.170) > 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 0.9463 photons ( 1.1238E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9423 photons ( 1.1242E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:21:58 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.950 +/- 8.8128E-03
Net count rate (cts/s) for file 2 5.950 +/- 8.8128E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.432 +/- 1.0514E-02( 57.7% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.432 +/- 1.0514E-02( 57.7% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.5386671E+07 using 198 PHA bins.
Reduced chi-squared = 80982.48 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 75825.96 using 198 PHA bins.
Reduced chi-squared = 399.0840 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
39654.4 -3 117.4 19.30 0.3389 2.754
9.8653E-02 112.1 19.32 2.689
39058.9 1 117.5 19.26 0.3447 1.837
0.4150 112.3 19.28 2.313
33661.4 0 118.0 18.32 0.3969 1.849
0.3928 113.4 18.35 2.305
24211.5 0 119.6 16.30 0.6389 1.949
0.2090 117.4 9.458 3.007
24086.1 1 119.6 16.32 0.6390 1.949
0.2093 117.4 9.504 1.663
23040.4 0 119.7 16.47 0.6410 1.955
0.2012 117.3 9.927 1.671
16703.0 0 119.7 17.26 0.6853 2.213
0.1654 116.5 17.58 1.701
12996.5 -1 116.2 18.76 0.9038 6.605
2.2968E-02 114.6 17.80 1.972
12976.9 -2 113.7 19.30 0.9884 9.002
7.6880E-03 113.0 18.54 3.728
12934.7 0 113.8 19.35 0.9821 9.464
1.9911E-03 112.9 18.54 9.338
12906.5 0 113.9 19.36 0.9774 9.486
5.2063E-04 112.9 18.53 9.460
12894.6 0 114.0 19.36 0.9746 9.497
1.5262E-04 112.8 18.52 9.491
12890.8 0 114.1 19.36 0.9728 9.500
4.3762E-05 112.8 18.52 9.499
12888.2 0 114.2 19.37 0.9717 9.500
1.5326E-05 112.8 18.51 9.500
12887.6 0 114.2 19.37 0.9706 9.500
1.0369E-06 112.8 18.51 9.500
12886.7 0 114.3 19.37 0.9697 9.500
1.4353E-07 112.9 18.50 9.500
12886.3 0 114.3 19.37 0.9692 9.500
3.1638E-08 112.9 18.49 9.500
12886.1 0 114.3 19.37 0.9687 9.500
3.6767E-09 112.9 18.49 9.500
12852.8 0 114.3 19.37 0.9662 9.500
1.5746E-11 112.9 18.39 9.500
12851.7 0 114.3 19.37 0.9656 9.500
5.9757E-12 112.9 18.38 9.500
12850.7 0 114.3 19.37 0.9652 9.500
1.1019E-12 112.9 18.38 9.500
12850.2 0 114.3 19.37 0.9650 9.500
4.9229E-13 112.9 18.37 9.500
12850.0 0 114.3 19.37 0.9647 9.500
1.8807E-13 112.9 18.37 9.500
Fit parameter 5 has pegged
12825.4 -1 114.0 19.37 0.9596 9.500
0.000 112.9 17.90 9.500
Fit parameter 5 has pegged
12822.1 -2 113.8 19.37 0.9644 9.500
0.000 112.8 18.17 9.500
Fit parameter 5 has pegged
12819.0 -3 113.8 19.37 0.9618 9.500
0.000 112.9 18.06 9.500
Fit parameter 5 has pegged
12815.9 0 113.9 19.37 0.9608 9.500
0.000 112.9 18.08 9.500
Fit parameter 5 has pegged
12814.6 0 114.0 19.37 0.9600 9.500
0.000 112.9 18.08 9.500
Fit parameter 5 has pegged
12813.7 0 114.0 19.37 0.9593 9.500
0.000 112.9 18.08 9.500
Fit parameter 5 has pegged
12813.1 0 114.0 19.37 0.9588 9.500
0.000 112.9 18.08 9.500
Fit parameter 5 has pegged
12812.9 0 114.1 19.37 0.9584 9.500
0.000 112.9 18.07 9.500
Fit parameter 5 has pegged
12812.6 0 114.1 19.37 0.9581 9.500
0.000 112.9 18.07 9.500
Fit parameter 5 has pegged
12812.4 0 114.1 19.37 0.9577 9.500
0.000 112.9 18.07 9.500
Fit parameter 5 has pegged
12812.2 0 114.1 19.37 0.9574 9.500
0.000 112.9 18.07 9.500
Fit parameter 5 has pegged
12812.0 0 114.1 19.37 0.9573 9.500
0.000 113.0 18.06 9.500
Fit parameter 5 has pegged
12812.0 0 114.1 19.37 0.9572 9.500
0.000 113.0 18.06 9.500
Fit parameter 5 has pegged
12811.9 0 114.1 19.37 0.9571 9.500
0.000 113.0 18.06 9.500
Fit parameter 5 has pegged
12811.9 0 114.1 19.37 0.9570 9.500
0.000 113.0 18.06 9.500
12811.7 3 114.1 19.37 0.9570 9.500
0.000 113.0 18.07 9.500
Fit parameter 5 has pegged
12811.7 5 114.1 19.37 0.9570 9.500
0.000 113.0 18.07 9.500
12811.7 5 114.1 19.37 0.9570 9.500
0.000 113.0 18.07 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.41E-05 | -0.01 0.00 -1.00 -0.01 0.01
8.36E-03 | 0.02 0.00 0.00 -0.63 -0.78
1.97E-02 | -0.97 -0.08 0.01 0.16 -0.15
4.98E-02 | 0.21 0.07 -0.01 0.76 -0.61
2.69E+00 | -0.09 0.99 0.00 -0.04 0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 114.126 +/- 0.208718 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.63178 1
3 3 1 gaussian norm 0.957003 +/- 0.564805E-02 1
4 4 2 powerlaw PhoIndex 9.50012 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 112.965 +/- 0.191033 2
7 7 3 gaussian Sigma keV 18.0676 +/- 0.162672 2
8 3 3 gaussian norm 0.957003 = 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 = 12811.74 using 198 PHA bins.
Reduced chi-squared = 67.43021 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 ( 65.034) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 65.034) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.7341 photons ( 1.4331E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7306 photons ( 1.4077E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:21:59 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.519 +/- 5.7338E-03
Net count rate (cts/s) for file 2 2.519 +/- 5.7338E-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 = 807086.7 using 168 PHA bins.
Reduced chi-squared = 5044.292 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 28833.93 using 168 PHA bins.
Reduced chi-squared = 180.2121 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
14694.6 -3 86.10 14.69 0.1166 1.085
0.6791 85.92 14.14 1.070
2272.85 -4 66.68 18.66 0.2374 1.091
0.9123 69.19 18.19 1.093
1429.09 0 71.35 17.66 0.2384 1.089
0.9151 72.82 17.85 1.091
1171.18 0 72.95 15.52 0.2374 1.088
0.9157 74.29 16.60 1.090
977.459 -1 74.45 10.89 0.1874 1.079
0.9359 76.12 9.990 1.080
622.139 -2 73.68 10.03 0.1516 1.047
0.8628 75.68 11.01 1.049
584.052 -2 73.29 9.900 0.1473 1.028
0.7988 75.55 10.39 1.030
578.074 -3 72.92 9.561 0.1464 0.9771
0.6335 75.12 10.43 0.9804
529.470 -4 72.75 9.544 0.1461 0.9600
0.5991 74.98 10.40 0.9616
529.322 -5 72.75 9.508 0.1458 0.9602
0.5994 74.98 10.39 0.9613
529.321 -6 72.74 9.516 0.1459 0.9601
0.5991 74.97 10.39 0.9612
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.05E-07 | 0.00 0.00 -0.32 0.60 -0.47 0.00 0.00 0.57
1.02E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.66E-06 | 0.00 0.01 -0.95 -0.19 0.16 0.00 0.04 -0.20
6.66E-04 | 0.03 0.00 0.00 -0.36 -0.87 0.03 0.00 -0.34
1.42E-03 | -0.01 0.06 -0.03 0.00 0.01 -0.02 -1.00 -0.01
4.69E-02 | 0.71 0.70 0.01 0.01 0.02 0.01 0.04 0.01
7.50E-02 | 0.40 -0.42 0.00 0.01 0.03 0.81 -0.04 0.01
5.61E-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 72.7400 +/- 0.233317 1
2 2 1 gaussian Sigma keV 9.51565 +/- 0.233919 1
3 3 1 gaussian norm 0.145901 +/- 0.331334E-02 1
4 4 2 powerlaw PhoIndex 0.960085 +/- 0.994086E-02 1
5 5 2 powerlaw norm 0.599063 +/- 0.243698E-01 1
6 6 3 gaussian LineE keV 74.9731 +/- 0.261683 2
7 7 3 gaussian Sigma keV 10.3931 +/- 0.408724E-01 2
8 3 3 gaussian norm 0.145901 = par 3 2
9 8 4 powerlaw PhoIndex 0.961250 +/- 0.953883E-02 2
10 5 4 powerlaw norm 0.599063 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 529.3213 using 168 PHA bins.
Reduced chi-squared = 3.308258 for 160 degrees of freedom
Null hypothesis probability = 4.499E-41
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.170) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.170) > 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 0.9463 photons ( 1.1238E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9423 photons ( 1.1242E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
114.8216
=====best line=====
72.7423 0.233428
=====best sigma=====
9.51161 0.234093
=====norm=====
0.145858 0.331708E-02
=====phoindx=====
0.960119 0.994456E-02
=====pow_norm=====
0.599165 0.243671E-01
=====best line=====
74.9744 0.261853
=====best sigma=====
10.3901 0.409151E-01
=====norm=====
0.145858 par
=====phoindx=====
0.961277 0.954238E-02
=====pow_norm=====
0.599165 par
=====redu_chi=====
3.308254
=====area_flux=====
0.9463
=====area_flux_f=====
0.9423
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 3 1 640 2000 1163.8768 0 0.145858 0.331708E-02 9.51161 0.234093 0.960119 0.994456E-02 0.599165 0.243671E-01 0.9463 640 2000 1199.5904 0 0.145858 0.331708E-02 10.3901 0.409151E-01 0.961277 0.954238E-02 0.599165 0.243671E-01 0.9423 3.308254 1
=====redu_chi=====
399.0840
=====best line=====
114.126 0.208718
=====best sigma=====
19.3655 1.63178
=====norm=====
0.957003 0.564805E-02
=====phoindx=====
9.50012 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
112.965 0.191033
=====best sigma=====
18.0676 0.162672
=====norm=====
0.957003 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
67.43021
=====area_flux=====
0.7341
=====area_flux_f=====
0.7306
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 3 1 1600 3200 1826.016 0 0.957003 0.564805E-02 309.848 26.10848 9.50012 -1.00000 0.00000 -1.00000 0.7341 1600 3200 1807.44 0 0.957003 0.564805E-02 289.0816 2.602752 9.50000 -1.00000 0.00000 -1.00000 0.7306 67.43021 1
=====redu_chi=====
180.2121
=====best line=====
72.7400 0.233317
=====best sigma=====
9.51565 0.233919
=====norm=====
0.145901 0.331334E-02
=====phoindx=====
0.960085 0.994086E-02
=====pow_norm=====
0.599063 0.243698E-01
=====best line=====
74.9731 0.261683
=====best sigma=====
10.3931 0.408724E-01
=====norm=====
0.145901 par
=====phoindx=====
0.961250 0.953883E-02
=====pow_norm=====
0.599063 par
=====redu_chi=====
3.308258
=====area_flux=====
0.9463
=====area_flux_f=====
0.9423
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 3 1 640 2000 1163.84 0 0.145901 0.331334E-02 9.51565 0.233919 0.960085 0.994086E-02 0.599063 0.243698E-01 0.9463 640 2000 1199.5696 0 0.145901 0.331334E-02 10.3931 0.408724E-01 0.961250 0.953883E-02 0.599063 0.243698E-01 0.9423 3.308258 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:21:59 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.460 +/- 5.6662E-03
Net count rate (cts/s) for file 2 2.460 +/- 5.6662E-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 = 503861.7 using 168 PHA bins.
Reduced chi-squared = 3149.135 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 6926.051 using 168 PHA bins.
Reduced chi-squared = 43.28782 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1176.45 -3 87.38 13.29 0.1469 0.8292
0.3850 88.34 12.84 0.8286
555.048 -4 84.19 9.952 0.1288 0.8127
0.3473 86.51 9.993 0.8142
544.967 0 84.20 10.85 0.1302 0.8129
0.3474 86.57 10.80 0.8139
531.142 -1 84.32 10.45 0.1358 0.8140
0.3471 86.60 10.98 0.8148
528.983 -2 84.24 10.72 0.1393 0.8189
0.3525 86.61 11.13 0.8194
526.514 -3 84.39 10.74 0.1412 0.8336
0.3733 86.71 11.19 0.8337
525.052 -4 84.44 10.84 0.1430 0.8419
0.3867 86.76 11.27 0.8422
524.746 -5 84.46 10.81 0.1427 0.8418
0.3876 86.77 11.24 0.8425
524.744 -6 84.46 10.84 0.1430 0.8422
0.3880 86.77 11.26 0.8428
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.03E-07 | 0.00 0.00 -0.26 0.53 -0.64 0.00 0.00 0.50
9.47E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.61E-06 | 0.00 0.04 -0.96 -0.11 0.21 0.00 0.03 -0.12
4.17E-04 | 0.02 0.16 -0.04 -0.47 -0.73 0.02 0.14 -0.45
1.33E-03 | 0.00 -0.73 -0.01 -0.01 -0.02 0.01 0.68 -0.01
3.90E-03 | 0.01 -0.66 -0.05 -0.10 -0.14 0.00 -0.72 -0.10
8.56E-02 | 0.47 0.00 0.00 0.01 0.02 0.88 0.00 0.01
7.25E-02 | -0.88 0.00 0.00 0.00 -0.01 0.47 -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 84.4561 +/- 0.274650 1
2 2 1 gaussian Sigma keV 10.8364 +/- 0.492798E-01 1
3 3 1 gaussian norm 0.142981 +/- 0.420831E-02 1
4 4 2 powerlaw PhoIndex 0.842152 +/- 0.122503E-01 1
5 5 2 powerlaw norm 0.388021 +/- 0.183617E-01 1
6 6 3 gaussian LineE keV 86.7704 +/- 0.287469 2
7 7 3 gaussian Sigma keV 11.2618 +/- 0.515017E-01 2
8 3 3 gaussian norm 0.142981 = par 3 2
9 8 4 powerlaw PhoIndex 0.842832 +/- 0.117737E-01 2
10 5 4 powerlaw norm 0.388021 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 524.7444 using 168 PHA bins.
Reduced chi-squared = 3.279652 for 160 degrees of freedom
Null hypothesis probability = 2.242E-40
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.142) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.142) > 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 1.000 photons ( 1.2272E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9975 photons ( 1.2294E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:21:59 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.119 +/- 8.9368E-03
Net count rate (cts/s) for file 2 6.119 +/- 8.9368E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.659 +/- 1.0582E-02( 59.8% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.659 +/- 1.0582E-02( 59.8% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 2702144. using 198 PHA bins.
Reduced chi-squared = 14221.81 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 113590.7 using 198 PHA bins.
Reduced chi-squared = 597.8459 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
61154.2 -3 123.2 19.16 0.4968 2.709
0.6944 127.1 19.05 2.891
60628.0 2 123.2 19.15 0.4975 2.095
2.269 127.1 19.05 2.674
59462.6 1 123.4 19.10 0.5046 2.031
3.044 127.2 19.02 2.484
48652.3 0 124.6 18.74 0.5670 1.772
7.293 127.9 18.77 2.117
29826.6 0 127.0 19.20 0.8648 1.754
7.896 129.2 19.34 2.182
26355.2 -1 124.3 19.34 1.390 1.806
4.982 126.2 19.36 3.005
25560.1 0 124.3 19.36 1.355 1.811
4.946 126.2 19.37 7.173
25108.5 0 124.4 19.36 1.332 1.809
5.121 126.3 19.37 9.395
24865.2 0 124.5 19.37 1.319 1.808
5.272 126.5 19.37 9.460
24713.3 0 124.6 19.37 1.311 1.811
5.349 126.6 19.37 9.483
24626.1 0 124.7 19.37 1.306 1.810
5.524 126.6 19.37 9.496
24553.5 0 124.8 19.37 1.303 1.813
5.585 126.7 19.37 9.499
24504.2 0 124.9 19.37 1.300 1.815
5.677 126.8 19.37 9.500
24460.2 0 124.9 19.37 1.298 1.820
5.707 126.8 19.37 9.500
24435.3 0 125.0 19.37 1.297 1.823
5.782 126.9 19.37 9.500
24413.5 0 125.0 19.37 1.296 1.825
5.887 126.9 19.37 9.500
24398.2 0 125.1 19.37 1.296 1.828
5.977 126.9 19.37 9.500
24382.8 0 125.1 19.37 1.295 1.830
6.083 126.9 19.37 9.500
24380.0 0 125.1 19.37 1.295 1.832
6.184 126.9 19.37 9.500
24375.4 0 125.1 19.37 1.295 1.835
6.285 127.0 19.37 9.500
24371.5 0 125.1 19.37 1.295 1.838
6.363 127.0 19.37 9.500
24270.7 0 125.2 19.37 1.288 1.838
6.369 127.0 19.37 9.500
24182.3 0 125.3 19.37 1.281 1.838
6.384 127.1 19.37 9.500
24104.6 0 125.3 19.37 1.275 1.838
6.405 127.1 19.37 9.500
24036.3 0 125.4 19.37 1.269 1.837
6.427 127.2 19.37 9.500
23975.8 0 125.5 19.37 1.264 1.837
6.456 127.2 19.37 9.500
23922.2 0 125.5 19.37 1.260 1.836
6.484 127.3 19.37 9.500
23874.2 0 125.6 19.37 1.255 1.836
6.511 127.3 19.37 9.500
23831.2 0 125.7 19.37 1.251 1.835
6.539 127.4 19.37 9.500
23792.9 0 125.7 19.37 1.248 1.835
6.569 127.4 19.37 9.500
23758.4 0 125.8 19.37 1.244 1.834
6.599 127.4 19.37 9.500
23699.6 0 125.9 19.37 1.238 1.834
6.656 127.5 19.37 9.500
23674.4 0 126.0 19.37 1.235 1.833
6.683 127.6 19.37 9.500
23651.6 0 126.0 19.37 1.233 1.833
6.713 127.6 19.37 9.500
23630.9 0 126.1 19.37 1.230 1.832
6.742 127.6 19.37 9.500
23612.3 0 126.1 19.37 1.228 1.832
6.767 127.7 19.37 9.500
23595.3 0 126.2 19.37 1.226 1.832
6.792 127.7 19.37 9.500
23579.8 0 126.2 19.37 1.224 1.832
6.816 127.7 19.37 9.500
23565.6 0 126.3 19.37 1.222 1.832
6.837 127.8 19.37 9.500
23552.7 0 126.3 19.37 1.221 1.831
6.858 127.8 19.37 9.500
23541.0 0 126.4 19.37 1.219 1.831
6.881 127.8 19.37 9.500
23530.1 0 126.4 19.37 1.218 1.831
6.900 127.8 19.37 9.500
23520.2 0 126.5 19.37 1.216 1.831
6.920 127.9 19.37 9.500
23511.0 0 126.5 19.37 1.215 1.831
6.939 127.9 19.37 9.500
23502.7 0 126.5 19.37 1.214 1.831
6.959 127.9 19.37 9.500
23495.0 0 126.6 19.37 1.213 1.831
6.977 127.9 19.37 9.500
23487.8 0 126.6 19.37 1.212 1.831
6.996 128.0 19.37 9.500
23481.2 0 126.6 19.37 1.211 1.831
7.011 128.0 19.37 9.500
23475.1 0 126.7 19.37 1.210 1.831
7.026 128.0 19.37 9.500
23469.4 0 126.7 19.37 1.209 1.831
7.041 128.0 19.37 9.500
23464.3 0 126.7 19.37 1.208 1.832
7.056 128.0 19.37 9.500
23459.5 0 126.8 19.37 1.207 1.832
7.071 128.1 19.37 9.500
23454.9 0 126.8 19.37 1.206 1.832
7.086 128.1 19.37 9.500
23450.8 0 126.8 19.37 1.206 1.832
7.101 128.1 19.37 9.500
23447.0 0 126.9 19.37 1.205 1.832
7.116 128.1 19.37 9.500
23443.4 0 126.9 19.37 1.205 1.832
7.128 128.1 19.37 9.500
23440.1 0 126.9 19.37 1.204 1.832
7.140 128.1 19.37 9.500
23436.9 0 126.9 19.37 1.204 1.833
7.152 128.1 19.37 9.500
23434.1 0 126.9 19.37 1.203 1.833
7.168 128.2 19.37 9.500
23431.3 0 127.0 19.37 1.203 1.833
7.180 128.2 19.37 9.500
23428.8 0 127.0 19.37 1.202 1.833
7.192 128.2 19.37 9.500
23426.5 0 127.0 19.37 1.202 1.833
7.205 128.2 19.37 9.500
23424.3 0 127.0 19.37 1.201 1.834
7.215 128.2 19.37 9.500
23422.3 0 127.1 19.37 1.201 1.834
7.225 128.2 19.37 9.500
23420.3 0 127.1 19.37 1.201 1.834
7.239 128.2 19.37 9.500
23418.5 0 127.1 19.37 1.200 1.834
7.252 128.2 19.37 9.500
23416.8 0 127.1 19.37 1.200 1.835
7.265 128.2 19.37 9.500
23415.1 0 127.1 19.37 1.200 1.835
7.276 128.2 19.37 9.500
23413.8 0 127.1 19.37 1.199 1.835
7.289 128.3 19.37 9.500
23412.3 0 127.1 19.37 1.199 1.835
7.302 128.3 19.37 9.500
23411.0 0 127.2 19.37 1.199 1.836
7.315 128.3 19.37 9.500
23409.7 0 127.2 19.37 1.199 1.836
7.325 128.3 19.37 9.500
23408.6 0 127.2 19.37 1.198 1.836
7.336 128.3 19.37 9.500
23407.4 0 127.2 19.37 1.198 1.836
7.346 128.3 19.37 9.500
23406.4 0 127.2 19.37 1.198 1.837
7.357 128.3 19.37 9.500
23405.5 0 127.2 19.37 1.198 1.837
7.369 128.3 19.37 9.500
23404.6 0 127.2 19.37 1.198 1.837
7.383 128.3 19.37 9.500
23403.7 0 127.3 19.37 1.198 1.837
7.394 128.3 19.37 9.500
23402.8 0 127.3 19.37 1.197 1.838
7.406 128.3 19.37 9.500
23402.0 0 127.3 19.37 1.197 1.838
7.417 128.3 19.37 9.500
23401.3 0 127.3 19.37 1.197 1.838
7.429 128.3 19.37 9.500
23400.5 0 127.3 19.37 1.197 1.839
7.440 128.3 19.37 9.500
23399.8 0 127.3 19.37 1.197 1.839
7.452 128.3 19.37 9.500
23399.3 0 127.3 19.37 1.197 1.839
7.464 128.3 19.37 9.500
23398.6 0 127.3 19.37 1.197 1.839
7.473 128.3 19.37 9.500
23398.0 0 127.3 19.37 1.196 1.840
7.482 128.3 19.37 9.500
23397.5 0 127.3 19.37 1.196 1.840
7.495 128.3 19.37 9.500
23396.9 0 127.3 19.37 1.196 1.840
7.507 128.3 19.37 9.500
23396.4 0 127.3 19.37 1.196 1.841
7.520 128.3 19.37 9.500
23396.0 0 127.4 19.37 1.196 1.841
7.530 128.3 19.37 9.500
23395.5 0 127.4 19.37 1.196 1.841
7.543 128.3 19.37 9.500
23395.1 0 127.4 19.37 1.196 1.841
7.556 128.3 19.37 9.500
23394.6 0 127.4 19.37 1.196 1.842
7.568 128.3 19.37 9.500
23394.2 0 127.4 19.37 1.196 1.842
7.578 128.4 19.37 9.500
23393.9 0 127.4 19.37 1.196 1.842
7.591 128.4 19.37 9.500
23393.4 0 127.4 19.37 1.196 1.843
7.604 128.4 19.37 9.500
23393.2 0 127.4 19.37 1.196 1.843
7.617 128.4 19.37 9.500
23392.8 0 127.4 19.37 1.195 1.843
7.627 128.4 19.37 9.500
23392.4 0 127.4 19.37 1.195 1.843
7.639 128.4 19.37 9.500
23392.1 0 127.4 19.37 1.195 1.844
7.652 128.4 19.37 9.500
23391.8 0 127.4 19.37 1.195 1.844
7.662 128.4 19.37 9.500
23391.5 0 127.4 19.37 1.195 1.844
7.672 128.4 19.37 9.500
23391.1 0 127.4 19.37 1.195 1.845
7.683 128.4 19.37 9.500
23390.8 0 127.4 19.37 1.195 1.845
7.694 128.4 19.37 9.500
23390.6 0 127.4 19.37 1.195 1.845
7.705 128.4 19.37 9.500
23390.3 0 127.4 19.37 1.195 1.845
7.719 128.4 19.37 9.500
23390.0 0 127.4 19.37 1.195 1.846
7.730 128.4 19.37 9.500
23389.9 0 127.4 19.37 1.195 1.846
7.741 128.4 19.37 9.500
23389.6 0 127.4 19.37 1.195 1.846
7.753 128.4 19.37 9.500
23389.3 0 127.4 19.37 1.195 1.847
7.767 128.4 19.37 9.500
23389.2 0 127.4 19.37 1.195 1.847
7.778 128.4 19.37 9.500
23389.0 0 127.4 19.37 1.195 1.847
7.790 128.4 19.37 9.500
23388.7 0 127.4 19.37 1.195 1.848
7.804 128.4 19.37 9.500
23388.5 0 127.5 19.37 1.195 1.848
7.815 128.4 19.37 9.500
23388.3 0 127.5 19.37 1.195 1.848
7.827 128.4 19.37 9.500
23388.1 0 127.5 19.37 1.195 1.848
7.841 128.4 19.37 9.500
23388.0 0 127.5 19.37 1.195 1.849
7.856 128.4 19.37 9.500
23387.7 0 127.5 19.37 1.195 1.849
7.867 128.4 19.37 9.500
23387.6 0 127.5 19.37 1.195 1.849
7.878 128.4 19.37 9.500
23387.4 0 127.5 19.37 1.195 1.850
7.889 128.4 19.37 9.500
23387.2 0 127.5 19.37 1.195 1.850
7.900 128.4 19.37 9.500
23387.0 0 127.5 19.37 1.195 1.850
7.912 128.4 19.37 9.500
23386.9 0 127.5 19.37 1.195 1.850
7.924 128.4 19.37 9.500
23386.7 0 127.5 19.37 1.195 1.851
7.936 128.4 19.37 9.500
23386.6 0 127.5 19.37 1.194 1.851
7.948 128.4 19.37 9.500
23386.3 0 127.5 19.37 1.194 1.851
7.961 128.4 19.37 9.500
23386.2 0 127.5 19.37 1.194 1.852
7.973 128.4 19.37 9.500
23386.0 0 127.5 19.37 1.194 1.852
7.988 128.4 19.37 9.500
23385.9 0 127.5 19.37 1.194 1.852
8.000 128.4 19.37 9.500
23385.7 0 127.5 19.37 1.194 1.852
8.015 128.4 19.37 9.500
23385.6 0 127.5 19.37 1.194 1.853
8.027 128.4 19.37 9.500
23385.4 0 127.5 19.37 1.194 1.853
8.039 128.4 19.37 9.500
23385.3 0 127.5 19.37 1.194 1.853
8.051 128.4 19.37 9.500
23385.1 0 127.5 19.37 1.194 1.854
8.063 128.4 19.37 9.500
23385.1 0 127.5 19.37 1.194 1.854
8.075 128.4 19.37 9.500
23384.9 0 127.5 19.37 1.194 1.854
8.087 128.4 19.37 9.500
23384.8 0 127.5 19.37 1.194 1.855
8.100 128.4 19.37 9.500
23384.6 0 127.5 19.37 1.194 1.855
8.112 128.4 19.37 9.500
23384.5 0 127.5 19.37 1.194 1.855
8.128 128.4 19.37 9.500
23384.4 0 127.5 19.37 1.194 1.855
8.140 128.4 19.37 9.500
23384.3 0 127.5 19.37 1.194 1.856
8.152 128.4 19.37 9.500
23384.1 0 127.5 19.37 1.194 1.856
8.165 128.4 19.37 9.500
23384.0 0 127.5 19.37 1.194 1.856
8.177 128.4 19.37 9.500
23383.8 0 127.5 19.37 1.194 1.857
8.190 128.4 19.37 9.500
23383.6 0 127.5 19.37 1.194 1.857
8.202 128.4 19.37 9.500
23383.6 0 127.5 19.37 1.194 1.857
8.218 128.4 19.37 9.500
23383.5 0 127.5 19.37 1.194 1.857
8.230 128.4 19.37 9.500
23383.4 0 127.5 19.37 1.194 1.858
8.243 128.4 19.37 9.500
23383.2 0 127.5 19.37 1.194 1.858
8.255 128.4 19.37 9.500
23383.1 0 127.5 19.37 1.194 1.858
8.268 128.4 19.37 9.500
23382.9 0 127.5 19.37 1.194 1.859
8.281 128.4 19.37 9.500
23382.8 0 127.5 19.37 1.194 1.859
8.293 128.4 19.37 9.500
23382.7 0 127.5 19.37 1.194 1.859
8.306 128.4 19.37 9.500
23382.6 0 127.5 19.37 1.194 1.859
8.319 128.4 19.37 9.500
23382.5 0 127.5 19.37 1.194 1.860
8.332 128.4 19.37 9.500
23382.3 0 127.5 19.37 1.194 1.860
8.345 128.4 19.37 9.500
23382.1 0 127.5 19.37 1.194 1.860
8.358 128.4 19.37 9.500
23382.0 0 127.5 19.37 1.194 1.861
8.371 128.4 19.37 9.500
23382.0 0 127.5 19.37 1.194 1.861
8.384 128.4 19.37 9.500
23381.7 0 127.5 19.37 1.194 1.862
8.410 128.4 19.37 9.500
23381.6 0 127.5 19.37 1.194 1.862
8.423 128.4 19.37 9.500
23381.5 0 127.5 19.37 1.194 1.862
8.436 128.4 19.37 9.500
23381.4 0 127.5 19.37 1.194 1.862
8.450 128.4 19.37 9.500
23381.3 0 127.5 19.37 1.194 1.863
8.463 128.4 19.37 9.500
23381.2 0 127.5 19.37 1.194 1.863
8.476 128.4 19.37 9.500
23381.1 0 127.5 19.37 1.194 1.863
8.490 128.4 19.37 9.500
23381.0 0 127.5 19.37 1.194 1.864
8.503 128.4 19.37 9.500
23380.9 0 127.5 19.37 1.194 1.864
8.517 128.4 19.37 9.500
23380.8 0 127.5 19.37 1.194 1.864
8.530 128.4 19.37 9.500
23380.6 0 127.5 19.37 1.194 1.864
8.544 128.4 19.37 9.500
23380.5 0 127.5 19.37 1.194 1.865
8.557 128.4 19.37 9.500
23380.4 0 127.5 19.37 1.194 1.865
8.571 128.4 19.37 9.500
23380.2 0 127.5 19.37 1.194 1.865
8.584 128.4 19.37 9.500
23380.1 0 127.5 19.37 1.194 1.866
8.598 128.4 19.37 9.500
23380.1 0 127.5 19.37 1.194 1.866
8.611 128.4 19.37 9.500
23380.0 0 127.5 19.37 1.194 1.866
8.625 128.4 19.37 9.500
23379.9 0 127.5 19.37 1.194 1.866
8.639 128.4 19.37 9.500
23379.8 0 127.5 19.37 1.194 1.867
8.652 128.4 19.37 9.500
23379.6 0 127.5 19.37 1.194 1.867
8.665 128.4 19.37 9.500
23379.5 0 127.5 19.37 1.194 1.867
8.679 128.4 19.37 9.500
23379.5 0 127.5 19.37 1.194 1.868
8.692 128.4 19.37 9.500
23379.3 0 127.5 19.37 1.194 1.868
8.706 128.4 19.37 9.500
23379.3 0 127.5 19.37 1.194 1.868
8.720 128.4 19.37 9.500
23379.1 0 127.5 19.37 1.194 1.868
8.734 128.4 19.37 9.500
23379.1 0 127.5 19.37 1.194 1.869
8.748 128.4 19.37 9.500
23378.9 0 127.5 19.37 1.194 1.869
8.762 128.4 19.37 9.500
23378.9 0 127.5 19.37 1.194 1.869
8.776 128.4 19.37 9.500
23378.8 0 127.5 19.37 1.194 1.870
8.789 128.4 19.37 9.500
23378.7 0 127.5 19.37 1.194 1.870
8.803 128.4 19.37 9.500
23378.6 0 127.5 19.37 1.194 1.870
8.817 128.4 19.37 9.500
23378.5 0 127.5 19.37 1.194 1.871
8.831 128.4 19.37 9.500
23378.4 0 127.5 19.37 1.194 1.871
8.845 128.4 19.37 9.500
23378.3 0 127.5 19.37 1.194 1.871
8.859 128.4 19.37 9.500
23378.2 0 127.5 19.37 1.194 1.871
8.873 128.4 19.37 9.500
23378.0 0 127.5 19.37 1.194 1.872
8.887 128.4 19.37 9.500
23377.9 0 127.5 19.37 1.194 1.872
8.901 128.4 19.37 9.500
23377.8 0 127.5 19.37 1.194 1.872
8.915 128.4 19.37 9.500
23377.7 0 127.5 19.37 1.194 1.873
8.929 128.4 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
1.40E-05 | 0.00 0.00 -0.97 0.24 -0.01 0.00 0.00
4.43E-05 | 0.00 0.00 -0.24 -0.97 0.02 0.00 0.00
1.60E-02 | -1.00 -0.02 0.00 0.00 0.01 -0.09 -0.01
1.34E-02 | -0.09 0.00 0.00 0.00 0.00 1.00 0.04
4.00E+00 | 0.02 -0.96 0.00 0.00 -0.01 0.02 -0.28
1.22E+02 | -0.01 0.00 0.00 -0.02 -1.00 0.00 0.04
1.84E+00 | 0.00 -0.28 0.00 0.00 0.04 -0.04 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 127.515 +/- 0.142778 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.95688 1
3 3 1 gaussian norm 1.19374 +/- 0.616490E-02 1
4 4 2 powerlaw PhoIndex 1.87257 +/- 0.249492 1
5 5 2 powerlaw norm 8.92910 +/- 11.0481 1
6 6 3 gaussian LineE keV 128.396 +/- 0.133214 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.47530 2
8 3 3 gaussian norm 1.19374 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 8.92910 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 23377.69 using 198 PHA bins.
Reduced chi-squared = 123.0405 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 (118.668) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square (118.668) > 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 200. reset by matrix bound to 198.
Model flux 1.184 photons ( 2.4870E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.108 photons ( 2.3304E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:00 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.460 +/- 5.6662E-03
Net count rate (cts/s) for file 2 2.460 +/- 5.6662E-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 = 569846.6 using 168 PHA bins.
Reduced chi-squared = 3561.542 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 14163.97 using 168 PHA bins.
Reduced chi-squared = 88.52479 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
864.382 -3 88.10 12.02 0.1533 0.8715
0.4450 88.92 11.57 0.8688
547.839 -4 84.58 12.08 0.1500 0.8558
0.4078 86.89 11.80 0.8570
537.108 -5 84.75 10.10 0.1358 0.8326
0.3758 86.82 10.77 0.8341
535.271 -6 84.32 11.59 0.1461 0.8466
0.3930 86.74 11.52 0.8469
528.941 -7 84.66 10.40 0.1388 0.8371
0.3819 86.80 10.99 0.8381
525.990 -8 84.37 11.06 0.1452 0.8452
0.3917 86.75 11.42 0.8457
525.198 -9 84.52 10.69 0.1413 0.8399
0.3854 86.79 11.14 0.8408
524.916 -10 84.43 10.91 0.1438 0.8432
0.3893 86.76 11.32 0.8438
524.795 -11 84.48 10.78 0.1423 0.8413
0.3870 86.78 11.21 0.8420
524.767 -12 84.45 10.86 0.1432 0.8425
0.3884 86.77 11.28 0.8431
524.747 -13 84.47 10.81 0.1427 0.8418
0.3876 86.77 11.24 0.8425
524.747 -14 84.46 10.84 0.1430 0.8422
0.3881 86.77 11.26 0.8429
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.03E-07 | 0.00 0.00 -0.26 0.53 -0.64 0.00 0.00 0.50
9.47E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.61E-06 | 0.00 0.04 -0.96 -0.11 0.21 0.00 0.03 -0.12
4.17E-04 | 0.02 0.16 -0.04 -0.47 -0.73 0.02 0.14 -0.45
1.33E-03 | 0.00 -0.73 -0.01 -0.01 -0.02 0.01 0.68 -0.01
3.90E-03 | 0.01 -0.66 -0.05 -0.10 -0.14 0.00 -0.72 -0.10
8.56E-02 | 0.47 0.00 0.00 0.01 0.02 0.88 0.00 0.01
7.25E-02 | -0.88 0.00 0.00 0.00 -0.01 0.47 -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 84.4552 +/- 0.274594 1
2 2 1 gaussian Sigma keV 10.8390 +/- 0.492558E-01 1
3 3 1 gaussian norm 0.143010 +/- 0.420614E-02 1
4 4 2 powerlaw PhoIndex 0.842188 +/- 0.122461E-01 1
5 5 2 powerlaw norm 0.388066 +/- 0.183544E-01 1
6 6 3 gaussian LineE keV 86.7700 +/- 0.287406 2
7 7 3 gaussian Sigma keV 11.2640 +/- 0.514735E-01 2
8 3 3 gaussian norm 0.143010 = par 3 2
9 8 4 powerlaw PhoIndex 0.842867 +/- 0.117698E-01 2
10 5 4 powerlaw norm 0.388066 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 524.7466 using 168 PHA bins.
Reduced chi-squared = 3.279666 for 160 degrees of freedom
Null hypothesis probability = 2.240E-40
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.142) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.142) > 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 1.000 photons ( 1.2272E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9975 photons ( 1.2294E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
43.28782
=====best line=====
84.4561 0.274650
=====best sigma=====
10.8364 0.492798E-01
=====norm=====
0.142981 0.420831E-02
=====phoindx=====
0.842152 0.122503E-01
=====pow_norm=====
0.388021 0.183617E-01
=====best line=====
86.7704 0.287469
=====best sigma=====
11.2618 0.515017E-01
=====norm=====
0.142981 par
=====phoindx=====
0.842832 0.117737E-01
=====pow_norm=====
0.388021 par
=====redu_chi=====
3.279652
=====area_flux=====
1.000
=====area_flux_f=====
0.9975
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 4 1 640 2000 1351.2976 0 0.142981 0.420831E-02 10.8364 0.492798E-01 0.842152 0.122503E-01 0.388021 0.183617E-01 1.000 640 2000 1388.3264 0 0.142981 0.420831E-02 11.2618 0.515017E-01 0.842832 0.117737E-01 0.388021 0.183617E-01 0.9975 3.279652 1
=====redu_chi=====
597.8459
=====best line=====
127.515 0.142778
=====best sigma=====
19.3655 1.95688
=====norm=====
1.19374 0.616490E-02
=====phoindx=====
1.87257 0.249492
=====pow_norm=====
8.92910 11.0481
=====best line=====
128.396 0.133214
=====best sigma=====
19.3655 1.47530
=====norm=====
1.19374 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
8.92910 par
=====redu_chi=====
123.0405
=====area_flux=====
1.184
=====area_flux_f=====
1.108
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 4 1 1600 3200 2040.24 0 1.19374 0.616490E-02 309.848 31.31008 1.87257 0.249492 8.92910 11.0481 1.184 1600 3200 2054.336 0 1.19374 0.616490E-02 309.848 23.6048 9.50000 -1.00000 8.92910 11.0481 1.108 123.0405 1
=====redu_chi=====
88.52479
=====best line=====
84.4552 0.274594
=====best sigma=====
10.8390 0.492558E-01
=====norm=====
0.143010 0.420614E-02
=====phoindx=====
0.842188 0.122461E-01
=====pow_norm=====
0.388066 0.183544E-01
=====best line=====
86.7700 0.287406
=====best sigma=====
11.2640 0.514735E-01
=====norm=====
0.143010 par
=====phoindx=====
0.842867 0.117698E-01
=====pow_norm=====
0.388066 par
=====redu_chi=====
3.279666
=====area_flux=====
1.000
=====area_flux_f=====
0.9975
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 4 1 640 2000 1351.2832 0 0.143010 0.420614E-02 10.8390 0.492558E-01 0.842188 0.122461E-01 0.388066 0.183544E-01 1.000 640 2000 1388.32 0 0.143010 0.420614E-02 11.2640 0.514735E-01 0.842867 0.117698E-01 0.388066 0.183544E-01 0.9975 3.279666 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:22:00 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.499 +/- 5.7108E-03
Net count rate (cts/s) for file 2 2.499 +/- 5.7108E-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 = 655331.4 using 168 PHA bins.
Reduced chi-squared = 4095.821 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16400.69 using 168 PHA bins.
Reduced chi-squared = 102.5043 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8494.20 -3 83.17 16.57 0.1956 1.072
0.6494 82.91 16.61 1.061
948.748 -3 75.65 10.35 0.1532 0.9055
0.4969 74.88 10.33 0.9133
842.088 -4 76.66 9.869 0.1376 0.9855
0.6434 76.70 9.955 0.9839
652.683 -5 76.42 9.595 0.1430 0.9848
0.6677 76.64 9.900 0.9856
652.531 -6 76.38 9.617 0.1432 0.9841
0.6664 76.63 9.906 0.9852
652.528 -7 76.39 9.602 0.1431 0.9841
0.6665 76.64 9.900 0.9852
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.31E-07 | 0.00 0.00 -0.33 0.61 -0.43 0.00 0.00 0.58
1.02E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.32E-06 | 0.00 0.01 -0.94 -0.20 0.16 0.00 0.01 -0.21
7.99E-04 | 0.03 0.01 -0.01 -0.33 -0.89 0.03 0.01 -0.32
3.68E-02 | -0.13 -0.73 0.00 0.00 0.00 0.11 0.66 0.00
8.19E-02 | 0.29 -0.59 -0.01 0.00 0.01 0.37 -0.66 0.00
5.24E-02 | 0.92 -0.01 0.00 0.01 0.02 -0.33 0.23 0.01
5.66E-02 | 0.24 0.35 0.00 0.01 0.03 0.86 0.29 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.3852 +/- 0.234007 1
2 2 1 gaussian Sigma keV 9.60213 +/- 0.234095 1
3 3 1 gaussian norm 0.143051 +/- 0.315919E-02 1
4 4 2 powerlaw PhoIndex 0.984056 +/- 0.998164E-02 1
5 5 2 powerlaw norm 0.666489 +/- 0.267625E-01 1
6 6 3 gaussian LineE keV 76.6352 +/- 0.243640 2
7 7 3 gaussian Sigma keV 9.89974 +/- 0.242164 2
8 3 3 gaussian norm 0.143051 = par 3 2
9 8 4 powerlaw PhoIndex 0.985173 +/- 0.957688E-02 2
10 5 4 powerlaw norm 0.666489 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 652.5279 using 168 PHA bins.
Reduced chi-squared = 4.078300 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 ( 3.907) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.907) > 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 0.9472 photons ( 1.1309E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9434 photons ( 1.1268E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:22:00 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.048 +/- 8.8848E-03
Net count rate (cts/s) for file 2 6.048 +/- 8.8848E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.549 +/- 1.0562E-02( 58.7% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.549 +/- 1.0562E-02( 58.7% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.5056922E+07 using 198 PHA bins.
Reduced chi-squared = 79246.96 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 93842.48 using 198 PHA bins.
Reduced chi-squared = 493.9078 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
52369.2 -3 111.2 17.78 0.3934 2.757
0.1071 107.7 17.76 2.708
34155.0 -1 119.3 19.02 1.105 7.900
4.1732E-02 119.4 19.05 8.121
17859.6 -2 116.7 19.36 1.119 9.439
1.8770E-02 114.3 18.94 9.407
17420.8 -2 115.2 19.37 1.184 9.498
7.2756E-03 112.3 19.33 9.460
17207.0 -2 114.3 19.37 1.224 9.500
2.6620E-03 111.2 19.35 9.487
17122.1 -1 114.5 19.37 1.207 9.500
4.4481E-04 111.4 19.37 9.497
16486.8 0 115.0 19.37 1.183 9.500
1.0180E-04 111.2 19.13 9.500
16304.1 0 115.3 19.37 1.168 9.500
1.5794E-05 111.3 19.04 9.500
16216.1 0 115.6 19.37 1.157 9.500
5.0317E-06 111.5 18.98 9.500
16157.8 0 115.9 19.37 1.149 9.500
2.3496E-06 111.6 18.91 9.500
16120.3 0 116.0 19.37 1.142 9.500
1.0139E-06 111.8 18.85 9.500
16090.4 0 116.2 19.37 1.137 9.500
3.4702E-07 111.9 18.79 9.500
15895.0 0 116.3 19.37 1.125 9.500
7.7242E-10 112.1 18.55 9.500
15864.0 0 116.3 19.37 1.122 9.500
3.2915E-10 112.2 18.48 9.500
15846.7 0 116.3 19.37 1.119 9.500
1.0863E-10 112.3 18.42 9.500
15835.4 0 116.4 19.37 1.116 9.500
5.3598E-11 112.4 18.38 9.500
15825.6 0 116.4 19.37 1.114 9.500
2.6184E-11 112.5 18.34 9.500
15819.0 0 116.4 19.37 1.112 9.500
1.2502E-11 112.6 18.31 9.500
15813.0 0 116.5 19.37 1.111 9.500
5.6795E-12 112.7 18.28 9.500
15808.7 0 116.5 19.37 1.109 9.500
2.2721E-12 112.7 18.26 9.500
15804.9 0 116.5 19.37 1.108 9.500
5.7004E-13 112.8 18.24 9.500
15801.9 0 116.5 19.37 1.107 9.500
1.4517E-13 112.8 18.22 9.500
Fit parameter 5 has pegged
15726.2 -1 116.3 19.37 1.091 9.500
0.000 112.9 17.20 9.500
Fit parameter 5 has pegged
15649.7 -2 116.0 19.37 1.100 9.500
0.000 112.8 17.82 9.500
Fit parameter 5 has pegged
15638.4 -3 116.1 19.37 1.092 9.500
0.000 113.0 17.56 9.500
Fit parameter 5 has pegged
15637.8 -4 116.1 19.37 1.094 9.500
0.000 112.9 17.69 9.500
Fit parameter 5 has pegged
15632.1 -5 116.2 19.37 1.091 9.500
0.000 113.0 17.61 9.500
Fit parameter 5 has pegged
15629.8 0 116.2 19.37 1.090 9.500
0.000 113.0 17.62 9.500
Fit parameter 5 has pegged
15628.6 0 116.3 19.37 1.089 9.500
0.000 113.0 17.62 9.500
Fit parameter 5 has pegged
15627.8 0 116.3 19.37 1.088 9.500
0.000 113.0 17.62 9.500
Fit parameter 5 has pegged
15627.3 0 116.3 19.37 1.088 9.500
0.000 113.0 17.62 9.500
Fit parameter 5 has pegged
15627.0 0 116.4 19.37 1.087 9.500
0.000 113.0 17.61 9.500
Fit parameter 5 has pegged
15626.9 0 116.4 19.37 1.087 9.500
0.000 113.0 17.61 9.500
Fit parameter 5 has pegged
15626.8 0 116.4 19.37 1.087 9.500
0.000 113.1 17.61 9.500
Fit parameter 5 has pegged
15626.6 0 116.4 19.37 1.086 9.500
0.000 113.1 17.61 9.500
Fit parameter 5 has pegged
15626.4 0 116.4 19.37 1.086 9.500
0.000 113.1 17.60 9.500
Fit parameter 5 has pegged
15626.4 0 116.4 19.37 1.086 9.500
0.000 113.1 17.60 9.500
Fit parameter 5 has pegged
15626.3 0 116.4 19.37 1.086 9.500
0.000 113.1 17.60 9.500
Fit parameter 5 has pegged
15626.3 4 116.4 19.37 1.086 9.500
0.000 113.1 17.60 9.500
15626.3 4 116.4 19.37 1.086 9.500
0.000 113.1 17.60 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.47E-05 | -0.01 0.00 -1.00 -0.01 0.01
3.50E-03 | 0.01 0.00 0.00 0.42 0.91
1.55E-02 | -0.96 -0.07 0.00 0.25 -0.11
2.98E-02 | 0.27 0.06 -0.02 0.87 -0.41
2.02E+00 | 0.09 -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 116.392 +/- 0.177095 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.41483 1
3 3 1 gaussian norm 1.08598 +/- 0.542445E-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 113.077 +/- 0.162288 2
7 7 3 gaussian Sigma keV 17.5997 +/- 0.924255E-01 2
8 3 3 gaussian norm 1.08598 = 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 = 15626.29 using 198 PHA bins.
Reduced chi-squared = 82.24364 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 79.321) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 79.321) > 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 0.8701 photons ( 1.7166E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8375 photons ( 1.6100E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:01 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.499 +/- 5.7108E-03
Net count rate (cts/s) for file 2 2.499 +/- 5.7108E-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 = 768962.6 using 168 PHA bins.
Reduced chi-squared = 4806.017 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 26042.00 using 168 PHA bins.
Reduced chi-squared = 162.7625 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
13217.2 -3 85.95 14.29 0.1329 1.084
0.6775 85.70 14.11 1.071
1986.31 -4 72.78 17.16 0.1971 1.008
0.7281 72.26 16.93 1.013
1442.83 -1 78.75 7.171 0.1493 1.010
0.7301 77.97 7.981 1.011
677.434 -2 77.30 9.328 0.1399 1.005
0.7309 77.20 9.586 1.006
659.724 -3 76.36 9.911 0.1455 0.9908
0.6843 76.66 10.40 0.9925
653.640 -4 76.47 9.485 0.1414 0.9843
0.6691 76.68 9.960 0.9857
652.596 -5 76.35 9.648 0.1433 0.9839
0.6659 76.63 9.922 0.9850
652.538 -6 76.39 9.588 0.1429 0.9841
0.6666 76.64 9.892 0.9852
652.530 -7 76.38 9.613 0.1432 0.9840
0.6663 76.63 9.907 0.9852
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.31E-07 | 0.00 0.00 -0.33 0.61 -0.43 0.00 0.00 0.58
1.02E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.30E-06 | 0.00 0.01 -0.94 -0.20 0.16 0.00 0.01 -0.21
7.99E-04 | 0.03 0.01 -0.01 -0.33 -0.89 0.03 0.01 -0.32
3.67E-02 | -0.14 -0.73 0.00 0.00 0.00 0.11 0.66 0.00
8.15E-02 | 0.29 -0.59 -0.01 0.00 0.01 0.37 -0.66 0.00
5.21E-02 | 0.92 -0.01 0.00 0.01 0.02 -0.32 0.23 0.01
5.65E-02 | 0.23 0.34 0.00 0.01 0.03 0.86 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 76.3776 +/- 0.233340 1
2 2 1 gaussian Sigma keV 9.61321 +/- 0.233370 1
3 3 1 gaussian norm 0.143157 +/- 0.315065E-02 1
4 4 2 powerlaw PhoIndex 0.984031 +/- 0.997483E-02 1
5 5 2 powerlaw norm 0.666343 +/- 0.267515E-01 1
6 6 3 gaussian LineE keV 76.6333 +/- 0.243509 2
7 7 3 gaussian Sigma keV 9.90661 +/- 0.241900 2
8 3 3 gaussian norm 0.143157 = par 3 2
9 8 4 powerlaw PhoIndex 0.985150 +/- 0.957030E-02 2
10 5 4 powerlaw norm 0.666343 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 652.5296 using 168 PHA bins.
Reduced chi-squared = 4.078310 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 ( 3.907) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.907) > 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 0.9472 photons ( 1.1309E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9434 photons ( 1.1268E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
102.5043
=====best line=====
76.3852 0.234007
=====best sigma=====
9.60213 0.234095
=====norm=====
0.143051 0.315919E-02
=====phoindx=====
0.984056 0.998164E-02
=====pow_norm=====
0.666489 0.267625E-01
=====best line=====
76.6352 0.243640
=====best sigma=====
9.89974 0.242164
=====norm=====
0.143051 par
=====phoindx=====
0.985173 0.957688E-02
=====pow_norm=====
0.666489 par
=====redu_chi=====
4.078300
=====area_flux=====
0.9472
=====area_flux_f=====
0.9434
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 5 1 640 2000 1222.1632 0 0.143051 0.315919E-02 9.60213 0.234095 0.984056 0.998164E-02 0.666489 0.267625E-01 0.9472 640 2000 1226.1632 0 0.143051 0.315919E-02 9.89974 0.242164 0.985173 0.957688E-02 0.666489 0.267625E-01 0.9434 4.078300 1
=====redu_chi=====
493.9078
=====best line=====
116.392 0.177095
=====best sigma=====
19.3655 1.41483
=====norm=====
1.08598 0.542445E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.077 0.162288
=====best sigma=====
17.5997 0.924255E-01
=====norm=====
1.08598 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
82.24364
=====area_flux=====
0.8701
=====area_flux_f=====
0.8375
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 5 1 1600 3200 1862.272 0 1.08598 0.542445E-02 309.848 22.63728 9.50000 -1.00000 0.00000 -1.00000 0.8701 1600 3200 1809.232 0 1.08598 0.542445E-02 281.5952 1.478808 9.50000 -1.00000 0.00000 -1.00000 0.8375 82.24364 1
=====redu_chi=====
162.7625
=====best line=====
76.3776 0.233340
=====best sigma=====
9.61321 0.233370
=====norm=====
0.143157 0.315065E-02
=====phoindx=====
0.984031 0.997483E-02
=====pow_norm=====
0.666343 0.267515E-01
=====best line=====
76.6333 0.243509
=====best sigma=====
9.90661 0.241900
=====norm=====
0.143157 par
=====phoindx=====
0.985150 0.957030E-02
=====pow_norm=====
0.666343 par
=====redu_chi=====
4.078310
=====area_flux=====
0.9472
=====area_flux_f=====
0.9434
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 5 1 640 2000 1222.0416 0 0.143157 0.315065E-02 9.61321 0.233370 0.984031 0.997483E-02 0.666343 0.267515E-01 0.9472 640 2000 1226.1328 0 0.143157 0.315065E-02 9.90661 0.241900 0.985150 0.957030E-02 0.666343 0.267515E-01 0.9434 4.078310 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:22:01 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.395 +/- 5.5916E-03
Net count rate (cts/s) for file 2 2.395 +/- 5.5916E-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 = 604051.1 using 168 PHA bins.
Reduced chi-squared = 3775.320 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11797.46 using 168 PHA bins.
Reduced chi-squared = 73.73409 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1808.92 -3 84.40 16.14 0.1804 0.8848
0.4215 84.81 15.58 0.8817
1775.20 -3 77.69 8.923 9.2709E-02 0.7667
0.2564 79.49 9.014 0.7702
852.196 -4 78.02 9.478 0.1279 0.8303
0.3362 80.43 11.68 0.8272
582.652 -5 78.08 8.847 0.1204 0.8234
0.3468 80.32 9.789 0.8232
574.580 -6 77.96 9.364 0.1277 0.8281
0.3508 80.29 9.786 0.8282
574.132 -7 78.03 9.152 0.1263 0.8275
0.3506 80.30 9.720 0.8277
574.044 -8 78.00 9.244 0.1271 0.8278
0.3508 80.29 9.768 0.8281
574.027 -9 78.01 9.203 0.1267 0.8276
0.3507 80.30 9.743 0.8279
574.024 -10 78.01 9.222 0.1269 0.8277
0.3507 80.30 9.755 0.8280
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.72E-07 | 0.00 0.00 -0.26 0.50 -0.67 0.00 0.00 0.48
9.68E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
4.75E-06 | 0.00 0.01 -0.97 -0.11 0.19 0.00 0.00 -0.12
3.41E-04 | 0.02 0.01 -0.02 -0.50 -0.72 0.02 0.01 -0.48
4.19E-02 | -0.14 -0.77 0.00 0.00 0.00 0.08 0.62 0.00
5.90E-02 | 0.95 -0.05 0.00 0.01 0.01 -0.25 0.19 0.01
8.93E-02 | -0.20 0.59 0.01 0.00 0.00 -0.30 0.72 0.00
6.77E-02 | 0.21 0.25 0.00 0.01 0.02 0.92 0.24 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 78.0081 +/- 0.245215 1
2 2 1 gaussian Sigma keV 9.22184 +/- 0.244680 1
3 3 1 gaussian norm 0.126875 +/- 0.305199E-02 1
4 4 2 powerlaw PhoIndex 0.827715 +/- 0.995182E-02 1
5 5 2 powerlaw norm 0.350730 +/- 0.139979E-01 1
6 6 3 gaussian LineE keV 80.2959 +/- 0.262571 2
7 7 3 gaussian Sigma keV 9.75479 +/- 0.262424 2
8 3 3 gaussian norm 0.126875 = par 3 2
9 8 4 powerlaw PhoIndex 0.827970 +/- 0.955579E-02 2
10 5 4 powerlaw norm 0.350730 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 574.0239 using 168 PHA bins.
Reduced chi-squared = 3.587649 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 ( 3.437) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.437) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9509 photons ( 1.1539E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9500 photons ( 1.1575E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:22:01 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.702 +/- 8.6266E-03
Net count rate (cts/s) for file 2 5.702 +/- 8.6266E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.306 +/- 1.0280E-02( 58.0% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.306 +/- 1.0280E-02( 58.0% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 8557556. using 198 PHA bins.
Reduced chi-squared = 45039.77 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 95153.96 using 198 PHA bins.
Reduced chi-squared = 500.8103 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
51029.5 -3 119.9 18.51 0.4083 2.913
0.2073 112.5 18.44 2.867
31631.0 -2 106.7 19.37 1.505 7.629
9.1949E-03 107.0 19.27 9.144
28395.2 0 108.1 19.37 1.423 9.157
4.2983E-03 108.4 19.36 9.359
27762.5 0 108.4 19.37 1.405 9.442
1.5482E-03 108.7 19.37 9.490
25401.2 0 110.0 19.37 1.354 3.079
4.2720E-04 110.4 19.37 9.498
23415.2 0 111.5 19.37 1.312 8.630
471.1 112.0 19.37 9.500
21839.9 0 112.9 19.37 1.280 9.378
125.1 113.4 19.37 9.500
20634.4 0 114.2 19.37 1.255 9.470
9.169 114.6 19.37 9.500
19736.5 0 115.3 19.37 1.235 9.488
3.520 115.6 19.37 9.500
19080.6 0 116.2 19.37 1.217 9.497
0.2861 116.4 19.37 9.500
18609.8 0 117.0 19.37 1.204 9.499
6.8972E-02 117.0 19.37 9.500
18257.8 0 117.7 19.37 1.191 9.500
1.1426E-02 117.5 19.37 9.500
18008.2 0 118.2 19.37 1.182 9.500
4.0518E-03 117.9 19.37 9.500
17829.5 0 118.7 19.37 1.175 9.500
1.3574E-03 118.2 19.37 9.500
17698.0 0 119.1 19.37 1.169 9.500
5.0126E-04 118.4 19.37 9.500
17598.0 0 119.4 19.37 1.164 9.500
3.3245E-05 118.6 19.37 9.500
17451.8 0 119.8 19.37 1.155 9.500
6.3097E-07 118.7 19.37 9.500
17404.5 0 120.0 19.37 1.152 9.500
3.0124E-07 118.8 19.37 9.500
17368.5 0 120.2 19.37 1.150 9.500
1.3583E-07 118.8 19.37 9.500
17313.3 0 120.4 19.37 1.146 9.500
7.0752E-09 118.9 19.37 9.500
17296.7 0 120.4 19.37 1.144 9.500
1.3765E-09 118.9 19.37 9.500
17287.4 0 120.4 19.37 1.144 9.500
6.6445E-10 118.9 19.37 9.500
17276.4 0 120.5 19.37 1.143 9.500
3.0634E-10 118.9 19.37 9.500
17272.0 0 120.5 19.37 1.143 9.500
1.2754E-10 118.9 19.37 9.500
17262.8 0 120.5 19.37 1.142 9.500
3.8059E-11 119.0 19.37 9.500
17257.7 0 120.6 19.37 1.141 9.500
1.5633E-11 119.0 19.37 9.500
17256.5 0 120.6 19.37 1.141 9.500
4.4034E-12 119.0 19.37 9.500
17253.4 0 120.6 19.37 1.141 9.500
1.6105E-12 119.0 19.37 9.500
17251.2 0 120.6 19.37 1.141 9.500
2.0588E-13 119.0 19.37 9.500
Fit parameter 5 has pegged
17218.3 0 120.6 19.37 1.136 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17212.5 0 120.5 19.37 1.134 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
17182.9 0 120.6 19.37 1.131 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
17156.6 0 120.7 19.37 1.127 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
17132.6 0 120.8 19.37 1.124 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
17110.9 0 120.8 19.37 1.122 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17091.2 0 120.9 19.37 1.119 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17073.5 0 121.0 19.37 1.117 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17057.2 0 121.0 19.37 1.114 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17042.3 0 121.1 19.37 1.112 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
17028.8 0 121.2 19.37 1.110 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
17016.6 0 121.2 19.37 1.109 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
17005.3 0 121.3 19.37 1.107 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
16994.7 0 121.3 19.37 1.105 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
16985.1 0 121.4 19.37 1.104 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
16976.2 0 121.4 19.37 1.103 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
16968.0 0 121.5 19.37 1.101 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
16960.5 0 121.5 19.37 1.100 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
16953.5 0 121.6 19.37 1.099 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
16947.1 0 121.6 19.37 1.098 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
16941.2 0 121.7 19.37 1.097 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
16935.6 0 121.7 19.37 1.096 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
16930.5 0 121.8 19.37 1.095 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
16925.8 0 121.8 19.37 1.094 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
16921.4 0 121.8 19.37 1.093 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
16917.4 0 121.9 19.37 1.093 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
16913.5 0 121.9 19.37 1.092 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
16910.0 0 121.9 19.37 1.091 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
16906.7 0 122.0 19.37 1.091 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
16903.7 0 122.0 19.37 1.090 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16900.9 0 122.0 19.37 1.090 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16898.2 0 122.1 19.37 1.089 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16895.8 0 122.1 19.37 1.089 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16893.5 0 122.1 19.37 1.088 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16891.3 0 122.1 19.37 1.088 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16889.3 0 122.2 19.37 1.087 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16887.5 0 122.2 19.37 1.087 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16885.8 0 122.2 19.37 1.086 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16884.1 0 122.2 19.37 1.086 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16882.6 0 122.3 19.37 1.086 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16881.2 0 122.3 19.37 1.085 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16879.8 0 122.3 19.37 1.085 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16878.6 0 122.3 19.37 1.085 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16877.5 0 122.3 19.37 1.084 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16876.3 0 122.3 19.37 1.084 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16875.3 0 122.4 19.37 1.084 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16874.4 0 122.4 19.37 1.084 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16873.5 0 122.4 19.37 1.083 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16872.6 0 122.4 19.37 1.083 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16871.8 0 122.4 19.37 1.083 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16871.1 0 122.4 19.37 1.083 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16870.4 0 122.5 19.37 1.082 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16869.7 0 122.5 19.37 1.082 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16869.0 0 122.5 19.37 1.082 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16868.4 0 122.5 19.37 1.082 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16867.8 0 122.5 19.37 1.082 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16867.4 0 122.5 19.37 1.081 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16866.9 0 122.5 19.37 1.081 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16866.4 0 122.5 19.37 1.081 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16866.0 0 122.5 19.37 1.081 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16865.6 0 122.5 19.37 1.081 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16865.2 0 122.6 19.37 1.081 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16864.9 0 122.6 19.37 1.081 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16864.4 0 122.6 19.37 1.081 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16864.1 0 122.6 19.37 1.080 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16863.8 0 122.6 19.37 1.080 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16863.5 0 122.6 19.37 1.080 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16863.3 0 122.6 19.37 1.080 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16862.9 0 122.6 19.37 1.080 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16862.7 0 122.6 19.37 1.080 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16862.5 0 122.6 19.37 1.080 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16862.3 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16862.1 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16861.8 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16861.6 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16861.5 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16861.4 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16861.2 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16861.0 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16860.9 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16860.8 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16860.6 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16860.5 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16860.4 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16860.3 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16860.1 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16860.0 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16860.0 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.9 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.8 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.6 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.6 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.5 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.4 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.4 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.3 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.2 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.1 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.0 0 122.7 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16859.0 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.9 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.9 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.8 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.7 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.7 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.7 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.7 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.6 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.6 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.5 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.5 1 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.4 1 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.4 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.3 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.3 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.2 1 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.2 1 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.1 0 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.1 3 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16858.1 3 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
16858.1 4 122.7 19.37 1.078 9.500
0.000 119.4 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.41E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.52E-02 | 0.23 0.00 0.01 -0.97 -0.07
1.87E-02 | -0.97 -0.04 0.01 -0.23 -0.02
3.27E+00 | -0.04 0.93 0.00 -0.03 0.36
1.76E+00 | 0.01 -0.36 0.00 -0.06 0.93
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 122.732 +/- 0.152365 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.75094 1
3 3 1 gaussian norm 1.07809 +/- 0.487335E-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 119.378 +/- 0.162918 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.39398 2
8 3 3 gaussian norm 1.07809 = 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 = 16858.08 using 198 PHA bins.
Reduced chi-squared = 88.72672 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 ( 85.574) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 85.574) > 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 0.9483 photons ( 1.9318E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9071 photons ( 1.8159E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:02 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.395 +/- 5.5916E-03
Net count rate (cts/s) for file 2 2.395 +/- 5.5916E-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 = 699876.4 using 168 PHA bins.
Reduced chi-squared = 4374.228 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 20622.93 using 168 PHA bins.
Reduced chi-squared = 128.8933 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2494.09 -3 86.32 13.71 0.1305 0.8577
0.4153 86.63 12.56 0.8536
1429.44 -4 75.37 13.99 0.1273 0.7876
0.2787 78.17 11.98 0.7902
1198.36 -3 81.54 8.558 8.7119E-02 0.8408
0.3679 81.65 9.418 0.8367
844.700 -4 77.17 13.00 0.1273 0.8347
0.3613 79.86 10.29 0.8350
673.180 -5 79.61 9.266 0.1104 0.8328
0.3654 80.56 9.799 0.8332
577.219 -6 77.78 9.497 0.1275 0.8282
0.3516 80.25 9.772 0.8288
574.544 -7 78.07 9.077 0.1258 0.8274
0.3507 80.30 9.696 0.8277
574.117 -8 77.99 9.276 0.1273 0.8280
0.3509 80.29 9.784 0.8282
574.043 -9 78.02 9.189 0.1266 0.8276
0.3506 80.30 9.734 0.8278
574.027 -10 78.01 9.228 0.1269 0.8277
0.3507 80.30 9.759 0.8280
574.024 -11 78.01 9.210 0.1268 0.8277
0.3507 80.30 9.747 0.8279
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.73E-07 | 0.00 0.00 -0.26 0.50 -0.67 0.00 0.00 0.48
9.68E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
4.76E-06 | 0.00 0.01 -0.97 -0.11 0.19 0.00 0.01 -0.12
3.41E-04 | 0.02 0.01 -0.02 -0.50 -0.72 0.02 0.01 -0.48
4.20E-02 | -0.14 -0.77 0.00 0.00 0.00 0.08 0.62 0.00
5.92E-02 | 0.95 -0.05 0.00 0.01 0.01 -0.26 0.19 0.01
8.97E-02 | -0.20 0.59 0.01 0.00 0.00 -0.30 0.72 0.00
6.78E-02 | 0.21 0.25 0.00 0.01 0.02 0.91 0.24 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 78.0118 +/- 0.245777 1
2 2 1 gaussian Sigma keV 9.21048 +/- 0.245328 1
3 3 1 gaussian norm 0.126774 +/- 0.305962E-02 1
4 4 2 powerlaw PhoIndex 0.827659 +/- 0.995912E-02 1
5 5 2 powerlaw norm 0.350694 +/- 0.140107E-01 1
6 6 3 gaussian LineE keV 80.2963 +/- 0.262805 2
7 7 3 gaussian Sigma keV 9.74692 +/- 0.262773 2
8 3 3 gaussian norm 0.126774 = par 3 2
9 8 4 powerlaw PhoIndex 0.827918 +/- 0.956282E-02 2
10 5 4 powerlaw norm 0.350694 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 574.0236 using 168 PHA bins.
Reduced chi-squared = 3.587647 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 ( 3.437) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.437) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9509 photons ( 1.1539E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9500 photons ( 1.1575E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
73.73409
=====best line=====
78.0081 0.245215
=====best sigma=====
9.22184 0.244680
=====norm=====
0.126875 0.305199E-02
=====phoindx=====
0.827715 0.995182E-02
=====pow_norm=====
0.350730 0.139979E-01
=====best line=====
80.2959 0.262571
=====best sigma=====
9.75479 0.262424
=====norm=====
0.126875 par
=====phoindx=====
0.827970 0.955579E-02
=====pow_norm=====
0.350730 par
=====redu_chi=====
3.587649
=====area_flux=====
0.9509
=====area_flux_f=====
0.9500
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 6 1 640 2000 1248.1296 0 0.126875 0.305199E-02 9.22184 0.244680 0.827715 0.995182E-02 0.350730 0.139979E-01 0.9509 640 2000 1284.7344 0 0.126875 0.305199E-02 9.75479 0.262424 0.827970 0.955579E-02 0.350730 0.139979E-01 0.9500 3.587649 1
=====redu_chi=====
500.8103
=====best line=====
122.732 0.152365
=====best sigma=====
19.3655 1.75094
=====norm=====
1.07809 0.487335E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.378 0.162918
=====best sigma=====
19.3655 1.39398
=====norm=====
1.07809 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
88.72672
=====area_flux=====
0.9483
=====area_flux_f=====
0.9071
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 6 1 1600 3200 1963.712 0 1.07809 0.487335E-02 309.848 28.01504 9.50000 -1.00000 0.00000 -1.00000 0.9483 1600 3200 1910.048 0 1.07809 0.487335E-02 309.848 22.30368 9.50000 -1.00000 0.00000 -1.00000 0.9071 88.72672 1
=====redu_chi=====
128.8933
=====best line=====
78.0118 0.245777
=====best sigma=====
9.21048 0.245328
=====norm=====
0.126774 0.305962E-02
=====phoindx=====
0.827659 0.995912E-02
=====pow_norm=====
0.350694 0.140107E-01
=====best line=====
80.2963 0.262805
=====best sigma=====
9.74692 0.262773
=====norm=====
0.126774 par
=====phoindx=====
0.827918 0.956282E-02
=====pow_norm=====
0.350694 par
=====redu_chi=====
3.587647
=====area_flux=====
0.9509
=====area_flux_f=====
0.9500
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 6 1 640 2000 1248.1888 0 0.126774 0.305962E-02 9.21048 0.245328 0.827659 0.995912E-02 0.350694 0.140107E-01 0.9509 640 2000 1284.7408 0 0.126774 0.305962E-02 9.74692 0.262773 0.827918 0.956282E-02 0.350694 0.140107E-01 0.9500 3.587647 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:22:02 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.859 +/- 7.0974E-03
Net count rate (cts/s) for file 2 3.859 +/- 7.0974E-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 = 220207.8 using 168 PHA bins.
Reduced chi-squared = 1376.299 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 28926.52 using 168 PHA bins.
Reduced chi-squared = 180.7907 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6845.89 -3 85.32 17.50 0.3407 0.9232
0.7579 84.55 17.36 0.9171
6077.04 -4 70.04 19.21 0.7033 0.9316
0.6285 70.64 19.01 0.9339
3932.38 -1 69.58 19.31 0.5510 0.9093
0.6433 71.98 19.25 0.9114
3289.57 -1 69.89 19.34 0.4498 0.8939
0.6483 73.23 19.05 0.8957
3084.67 -2 71.25 9.573 0.2004 0.8243
0.5725 74.83 6.168 0.8252
1979.07 -2 66.21 13.78 0.1973 0.7843
0.4845 72.76 8.326 0.7856
1282.10 -2 68.95 8.927 0.1964 0.7547
0.4269 70.86 8.896 0.7547
937.460 -2 65.49 9.707 0.2176 0.7268
0.3761 70.47 9.141 0.7283
804.520 -2 66.01 7.997 0.2069 0.7064
0.3485 70.44 8.809 0.7077
747.915 -2 65.40 8.562 0.2156 0.6899
0.3229 70.25 9.087 0.6912
718.930 -2 65.41 8.426 0.2158 0.6768
0.3054 70.18 9.073 0.6780
704.074 -3 65.10 8.710 0.2246 0.6369
0.2533 69.87 9.357 0.6393
669.413 -4 65.04 8.743 0.2276 0.6219
0.2393 69.75 9.433 0.6231
669.153 -5 65.05 8.730 0.2275 0.6225
0.2398 69.76 9.426 0.6232
669.152 -6 65.04 8.732 0.2275 0.6225
0.2398 69.75 9.427 0.6232
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.95E-07 | 0.00 0.00 -0.12 0.42 -0.81 0.00 0.00 0.40
5.83E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.22E-06 | 0.00 0.01 -0.99 -0.08 0.06 0.00 0.01 -0.09
1.53E-04 | 0.02 -0.02 0.06 -0.58 -0.59 0.02 -0.01 -0.56
2.12E-02 | -0.15 -0.79 0.00 0.00 0.00 0.04 0.60 0.00
6.04E-02 | 0.32 -0.53 -0.01 0.02 0.02 0.45 -0.64 0.02
2.89E-02 | -0.93 -0.06 0.00 -0.01 -0.01 0.13 -0.33 -0.01
3.31E-02 | 0.02 -0.31 -0.01 0.00 0.00 -0.88 -0.35 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 65.0435 +/- 0.178965 1
2 2 1 gaussian Sigma keV 8.73176 +/- 0.182637 1
3 3 1 gaussian norm 0.227505 +/- 0.455587E-02 1
4 4 2 powerlaw PhoIndex 0.622457 +/- 0.859494E-02 1
5 5 2 powerlaw norm 0.239753 +/- 0.883405E-02 1
6 6 3 gaussian LineE keV 69.7547 +/- 0.196236 2
7 7 3 gaussian Sigma keV 9.42681 +/- 0.199190 2
8 3 3 gaussian norm 0.227505 = par 3 2
9 8 4 powerlaw PhoIndex 0.623189 +/- 0.821657E-02 2
10 5 4 powerlaw norm 0.239753 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 669.1525 using 168 PHA bins.
Reduced chi-squared = 4.182203 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 ( 4.007) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.007) > 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 125. reset by matrix bound to 124.
Model flux 1.583 photons ( 1.9098E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.579 photons ( 1.9217E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:22:02 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 9.531 +/- 1.1153E-02
Net count rate (cts/s) for file 2 9.531 +/- 1.1153E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.671 +/- 1.3220E-02( 59.5% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.671 +/- 1.3220E-02( 59.5% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.7976914E+07 using 198 PHA bins.
Reduced chi-squared = 94615.34 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 119477.7 using 198 PHA bins.
Reduced chi-squared = 628.8300 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
82579.7 -3 93.28 17.86 0.6842 2.616
8.0480E-02 94.92 17.84 2.571
82368.9 2 93.33 17.89 0.6859 2.494
0.1132 94.98 17.86 2.517
80262.3 1 93.89 18.18 0.7027 2.067
0.3224 95.54 18.01 2.250
63533.9 0 98.65 19.27 0.8420 1.981
0.4772 100.2 18.74 2.156
25814.6 0 115.2 19.35 1.312 2.082
7.1994E-03 111.2 17.36 2.833
24405.4 0 115.0 19.13 1.330 8.529
2.9444E-03 111.0 17.21 7.124
20451.9 0 114.9 16.94 1.438 9.288
1.4467E-03 110.6 16.35 9.074
20183.1 -1 115.8 18.28 1.549 9.452
7.0293E-04 110.9 16.08 9.458
19876.0 0 115.7 18.06 1.541 9.498
1.3245E-04 111.0 16.11 9.496
19807.8 0 115.7 17.97 1.535 9.499
4.3375E-05 111.0 16.10 9.500
19781.4 0 115.8 17.92 1.531 9.500
2.0649E-05 111.1 16.08 9.500
19766.6 0 115.9 17.88 1.527 9.500
9.3157E-06 111.1 16.06 9.500
19754.8 0 116.0 17.85 1.524 9.500
3.6631E-06 111.2 16.05 9.500
19745.1 0 116.1 17.82 1.522 9.500
8.4508E-07 111.2 16.03 9.500
19732.5 0 116.2 17.78 1.517 9.500
4.6615E-08 111.3 15.99 9.500
19727.6 0 116.2 17.76 1.515 9.500
2.2757E-08 111.3 15.98 9.500
19681.7 -1 116.4 17.56 1.508 9.500
3.5270E-09 111.5 16.07 9.500
19681.6 -1 116.5 17.58 1.505 9.500
1.6956E-09 111.6 16.00 9.500
19677.9 -1 116.5 17.56 1.503 9.500
7.8190E-10 111.6 16.00 9.500
19676.6 -1 116.5 17.55 1.502 9.500
3.2544E-10 111.7 15.99 9.500
19676.1 -1 116.6 17.54 1.501 9.500
9.7300E-11 111.7 15.98 9.500
19599.0 0 116.5 17.45 1.499 9.500
3.8504E-11 111.6 15.92 9.500
19587.0 0 116.5 17.42 1.497 9.500
9.5194E-12 111.6 15.90 9.500
19583.6 0 116.5 17.41 1.496 9.500
2.3012E-12 111.6 15.89 9.500
19582.1 0 116.5 17.40 1.495 9.500
4.9926E-13 111.7 15.88 9.500
19581.2 0 116.5 17.40 1.494 9.500
4.9185E-14 111.7 15.88 9.500
Fit parameter 5 has pegged
19551.9 -1 116.6 17.12 1.480 9.500
0.000 111.8 15.68 9.500
Fit parameter 5 has pegged
19547.0 -2 116.6 17.23 1.480 9.500
0.000 111.9 15.74 9.500
Fit parameter 5 has pegged
19545.4 -3 116.7 17.14 1.476 9.500
0.000 111.9 15.67 9.500
Fit parameter 5 has pegged
19545.0 -4 116.7 17.18 1.477 9.500
0.000 111.9 15.70 9.500
Fit parameter 5 has pegged
19544.8 -5 116.7 17.15 1.476 9.500
0.000 111.9 15.68 9.500
Fit parameter 5 has pegged
19544.8 -6 116.7 17.17 1.477 9.500
0.000 111.9 15.70 9.500
Fit parameter 5 has pegged
19544.7 -3 116.7 17.17 1.477 9.500
0.000 111.9 15.69 9.500
Fit parameter 5 has pegged
19544.7 -1 116.7 17.17 1.477 9.500
0.000 111.9 15.69 9.500
Fit parameter 5 has pegged
19544.7 -2 116.7 17.17 1.477 9.500
0.000 111.9 15.69 9.500
19544.7 4 116.7 17.17 1.477 9.500
0.000 111.9 15.69 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.15E-05 | -0.01 0.02 -1.00 -0.02 0.04
2.77E-04 | 0.01 -0.01 0.04 0.13 0.99
1.40E-03 | -0.30 -0.95 -0.01 -0.02 0.00
2.37E-02 | 0.73 -0.25 -0.03 0.63 -0.09
1.35E-02 | 0.61 -0.18 0.01 -0.77 0.10
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.705 +/- 0.133626 1
2 2 1 gaussian Sigma keV 17.1694 +/- 0.559689E-01 1
3 3 1 gaussian norm 1.47670 +/- 0.621043E-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 111.933 +/- 0.131343 2
7 7 3 gaussian Sigma keV 15.6917 +/- 0.243447E-01 2
8 3 3 gaussian norm 1.47670 = 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 = 19544.70 using 198 PHA bins.
Reduced chi-squared = 102.8669 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 99.212) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 99.212) > 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 1.232 photons ( 2.4056E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.147 photons ( 2.1671E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:02 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.859 +/- 7.0974E-03
Net count rate (cts/s) for file 2 3.859 +/- 7.0974E-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 = 303549.6 using 168 PHA bins.
Reduced chi-squared = 1897.185 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 48369.62 using 168 PHA bins.
Reduced chi-squared = 302.3101 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
17747.8 -3 88.29 13.78 0.1231 0.7253
0.4775 87.46 14.15 0.7221
4468.13 -4 67.72 19.24 0.3994 0.8832
0.6404 63.77 19.19 0.8778
3615.85 0 69.13 12.74 0.3866 0.8809
0.6385 69.44 19.35 0.8782
3499.30 0 69.00 12.88 0.3834 0.8806
0.6385 69.89 19.15 0.8782
3403.51 0 68.89 13.00 0.3806 0.8803
0.6385 70.30 18.96 0.8782
3324.15 0 68.78 13.12 0.3780 0.8800
0.6385 70.65 18.76 0.8781
3257.95 0 68.69 13.22 0.3756 0.8797
0.6386 70.97 18.57 0.8780
2948.07 0 68.28 13.54 0.3576 0.8768
0.6399 72.63 12.91 0.8769
2091.40 -1 68.50 11.29 0.2557 0.8608
0.6464 72.44 11.42 0.8607
1497.84 -2 67.23 9.822 0.2002 0.8054
0.5267 71.71 9.835 0.8074
1056.25 -2 66.23 8.200 0.2035 0.7662
0.4478 70.86 8.681 0.7681
899.850 -2 65.71 8.390 0.2094 0.7358
0.3933 70.57 8.917 0.7376
810.409 -2 65.62 8.317 0.2106 0.7126
0.3566 70.44 8.925 0.7141
758.127 -2 65.48 8.404 0.2135 0.6946
0.3299 70.30 9.014 0.6959
725.998 -2 65.40 8.441 0.2156 0.6805
0.3103 70.20 9.070 0.6817
714.924 -3 65.11 8.700 0.2243 0.6379
0.2540 69.88 9.349 0.6404
669.451 -4 65.04 8.746 0.2277 0.6218
0.2392 69.75 9.435 0.6230
669.154 -5 65.05 8.729 0.2275 0.6225
0.2398 69.76 9.425 0.6232
669.153 -6 65.04 8.732 0.2275 0.6224
0.2397 69.75 9.427 0.6232
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.95E-07 | 0.00 0.00 -0.12 0.42 -0.81 0.00 0.00 0.40
5.83E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.22E-06 | 0.00 0.01 -0.99 -0.08 0.06 0.00 0.01 -0.09
1.53E-04 | 0.02 -0.02 0.06 -0.58 -0.59 0.02 -0.01 -0.56
2.12E-02 | -0.15 -0.79 0.00 0.00 0.00 0.04 0.60 0.00
6.04E-02 | 0.32 -0.53 -0.01 0.02 0.02 0.45 -0.64 0.02
2.89E-02 | -0.93 -0.06 0.00 -0.01 -0.01 0.13 -0.33 -0.01
3.31E-02 | 0.02 -0.31 -0.01 0.00 0.00 -0.88 -0.35 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 65.0433 +/- 0.178969 1
2 2 1 gaussian Sigma keV 8.73205 +/- 0.182622 1
3 3 1 gaussian norm 0.227510 +/- 0.455538E-02 1
4 4 2 powerlaw PhoIndex 0.622449 +/- 0.859440E-02 1
5 5 2 powerlaw norm 0.239745 +/- 0.883404E-02 1
6 6 3 gaussian LineE keV 69.7545 +/- 0.196231 2
7 7 3 gaussian Sigma keV 9.42695 +/- 0.199183 2
8 3 3 gaussian norm 0.227510 = par 3 2
9 8 4 powerlaw PhoIndex 0.623182 +/- 0.821605E-02 2
10 5 4 powerlaw norm 0.239745 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 669.1526 using 168 PHA bins.
Reduced chi-squared = 4.182204 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 ( 4.007) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.007) > 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 125. reset by matrix bound to 124.
Model flux 1.583 photons ( 1.9098E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.579 photons ( 1.9217E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
180.7907
=====best line=====
65.0435 0.178965
=====best sigma=====
8.73176 0.182637
=====norm=====
0.227505 0.455587E-02
=====phoindx=====
0.622457 0.859494E-02
=====pow_norm=====
0.239753 0.883405E-02
=====best line=====
69.7547 0.196236
=====best sigma=====
9.42681 0.199190
=====norm=====
0.227505 par
=====phoindx=====
0.623189 0.821657E-02
=====pow_norm=====
0.239753 par
=====redu_chi=====
4.182203
=====area_flux=====
1.583
=====area_flux_f=====
1.579
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 7 1 640 2000 1040.696 0 0.227505 0.455587E-02 8.73176 0.182637 0.622457 0.859494E-02 0.239753 0.883405E-02 1.583 640 2000 1116.0752 0 0.227505 0.455587E-02 9.42681 0.199190 0.623189 0.821657E-02 0.239753 0.883405E-02 1.579 4.182203 1
=====redu_chi=====
628.8300
=====best line=====
116.705 0.133626
=====best sigma=====
17.1694 0.559689E-01
=====norm=====
1.47670 0.621043E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.933 0.131343
=====best sigma=====
15.6917 0.243447E-01
=====norm=====
1.47670 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
102.8669
=====area_flux=====
1.232
=====area_flux_f=====
1.147
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 7 1 1600 3200 1867.28 0 1.47670 0.621043E-02 274.7104 0.8955024 9.50000 -1.00000 0.00000 -1.00000 1.232 1600 3200 1790.928 0 1.47670 0.621043E-02 251.0672 0.3895152 9.50000 -1.00000 0.00000 -1.00000 1.147 102.8669 1
=====redu_chi=====
302.3101
=====best line=====
65.0433 0.178969
=====best sigma=====
8.73205 0.182622
=====norm=====
0.227510 0.455538E-02
=====phoindx=====
0.622449 0.859440E-02
=====pow_norm=====
0.239745 0.883404E-02
=====best line=====
69.7545 0.196231
=====best sigma=====
9.42695 0.199183
=====norm=====
0.227510 par
=====phoindx=====
0.623182 0.821605E-02
=====pow_norm=====
0.239745 par
=====redu_chi=====
4.182204
=====area_flux=====
1.583
=====area_flux_f=====
1.579
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 7 1 640 2000 1040.6928 0 0.227510 0.455538E-02 8.73205 0.182622 0.622449 0.859440E-02 0.239745 0.883404E-02 1.583 640 2000 1116.072 0 0.227510 0.455538E-02 9.42695 0.199183 0.623182 0.821605E-02 0.239745 0.883404E-02 1.579 4.182204 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:22:02 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.481 +/- 6.7407E-03
Net count rate (cts/s) for file 2 3.481 +/- 6.7407E-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 = 285599.8 using 168 PHA bins.
Reduced chi-squared = 1784.999 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 22511.02 using 168 PHA bins.
Reduced chi-squared = 140.6939 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6084.14 -3 83.20 17.22 0.3448 1.005
0.8050 82.97 17.14 0.9982
2262.40 -2 75.26 18.76 0.3874 0.9619
0.7691 75.41 18.52 0.9638
2080.33 0 75.51 16.46 0.3813 0.9620
0.7681 75.76 16.63 0.9633
1563.81 -1 76.07 12.01 0.2952 0.9512
0.7879 76.59 10.76 0.9515
977.998 -2 75.38 10.10 0.2153 0.9129
0.7225 76.16 9.994 0.9141
895.187 -2 74.57 9.932 0.2139 0.8911
0.6578 75.79 9.902 0.8924
848.619 -2 74.47 9.487 0.2110 0.8737
0.6130 75.69 9.603 0.8749
834.403 -3 74.07 9.584 0.2115 0.8274
0.4966 75.38 9.684 0.8299
785.229 -4 74.00 9.475 0.2100 0.8124
0.4727 75.29 9.626 0.8134
785.062 -5 73.97 9.487 0.2102 0.8122
0.4718 75.28 9.640 0.8128
785.059 -6 73.97 9.478 0.2101 0.8123
0.4719 75.28 9.633 0.8129
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.36E-07 | 0.00 0.00 -0.19 0.58 -0.57 0.00 0.00 0.55
6.82E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.40E-06 | 0.00 0.01 -0.98 -0.11 0.12 0.00 0.01 -0.11
3.22E-04 | 0.02 0.00 -0.01 -0.42 -0.81 0.02 0.00 -0.40
2.44E-02 | -0.10 -0.72 0.00 0.00 0.00 0.10 0.68 0.00
5.44E-02 | 0.33 -0.60 -0.01 0.01 0.02 0.37 -0.63 0.01
3.51E-02 | 0.81 -0.06 0.00 0.00 0.00 -0.57 0.15 0.00
3.68E-02 | 0.48 0.35 0.01 0.01 0.02 0.73 0.34 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 73.9742 +/- 0.193541 1
2 2 1 gaussian Sigma keV 9.47777 +/- 0.191467 1
3 3 1 gaussian norm 0.210110 +/- 0.381080E-02 1
4 4 2 powerlaw PhoIndex 0.812291 +/- 0.809692E-02 1
5 5 2 powerlaw norm 0.471942 +/- 0.156651E-01 1
6 6 3 gaussian LineE keV 75.2783 +/- 0.196177 2
7 7 3 gaussian Sigma keV 9.63340 +/- 0.195142 2
8 3 3 gaussian norm 0.210110 = par 3 2
9 8 4 powerlaw PhoIndex 0.812873 +/- 0.776335E-02 2
10 5 4 powerlaw norm 0.471942 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 785.0594 using 168 PHA bins.
Reduced chi-squared = 4.906621 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 ( 4.701) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.701) > 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 1.394 photons ( 1.6818E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.391 photons ( 1.6826E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:22:02 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.260 +/- 1.0383E-02
Net count rate (cts/s) for file 2 8.260 +/- 1.0383E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.779 +/- 1.2379E-02( 57.9% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.779 +/- 1.2379E-02( 57.9% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.3787234E+07 using 198 PHA bins.
Reduced chi-squared = 72564.39 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 108517.9 using 198 PHA bins.
Reduced chi-squared = 571.1469 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
61182.6 -3 114.6 18.64 0.4978 2.797
0.1101 104.5 18.66 2.746
26266.9 -2 103.5 19.32 1.813 8.339
2.3845E-02 108.5 19.28 6.387
22101.4 -2 108.0 19.36 1.646 9.399
1.0648E-02 108.8 19.35 8.811
21887.6 -2 109.7 19.36 1.693 9.483
2.8502E-03 108.3 19.36 9.265
21085.9 -1 110.8 19.37 1.654 9.499
1.4743E-04 108.8 19.36 9.420
20618.9 -1 111.6 19.37 1.630 9.500
3.0462E-05 109.2 19.37 9.474
20207.6 -1 112.3 19.37 1.602 9.500
1.1518E-05 109.7 19.37 9.496
20028.1 -1 112.7 19.37 1.588 9.500
9.7088E-07 110.0 19.37 9.500
19874.7 -1 113.0 19.37 1.573 9.500
3.0286E-07 110.3 19.37 9.500
19373.7 0 113.8 19.37 1.524 9.500
3.7604E-08 110.7 19.33 9.500
19153.3 0 114.3 19.37 1.501 9.500
1.2738E-08 110.8 19.28 9.500
18784.4 0 115.1 19.37 1.469 9.500
2.1329E-11 111.2 19.03 9.500
18688.6 0 115.3 19.37 1.457 9.500
6.8474E-12 111.4 18.94 9.500
18620.1 0 115.6 19.37 1.448 9.500
3.2328E-12 111.6 18.86 9.500
18568.6 0 115.8 19.37 1.440 9.500
1.4291E-12 111.8 18.79 9.500
18527.2 0 115.9 19.37 1.433 9.500
5.2965E-13 112.0 18.73 9.500
18494.6 0 116.0 19.37 1.427 9.500
8.1781E-14 112.1 18.67 9.500
Fit parameter 5 has pegged
18362.2 0 116.1 19.37 1.413 9.500
0.000 112.2 18.30 9.500
Fit parameter 5 has pegged
18343.8 0 116.1 19.37 1.406 9.500
0.000 112.3 18.23 9.500
Fit parameter 5 has pegged
18329.8 0 116.1 19.37 1.401 9.500
0.000 112.5 18.18 9.500
Fit parameter 5 has pegged
18320.4 0 116.2 19.37 1.398 9.500
0.000 112.6 18.14 9.500
Fit parameter 5 has pegged
18311.8 0 116.2 19.37 1.395 9.500
0.000 112.7 18.10 9.500
Fit parameter 5 has pegged
18304.6 0 116.2 19.37 1.392 9.500
0.000 112.8 18.07 9.500
Fit parameter 5 has pegged
18300.3 0 116.3 19.37 1.391 9.500
0.000 112.8 18.05 9.500
Fit parameter 5 has pegged
18295.7 0 116.3 19.37 1.389 9.500
0.000 112.9 18.03 9.500
Fit parameter 5 has pegged
18292.5 0 116.3 19.37 1.387 9.500
0.000 113.0 18.01 9.500
Fit parameter 5 has pegged
18290.0 0 116.3 19.37 1.386 9.500
0.000 113.0 18.00 9.500
Fit parameter 5 has pegged
18287.6 0 116.4 19.37 1.385 9.500
0.000 113.0 17.98 9.500
Fit parameter 5 has pegged
18285.4 0 116.4 19.37 1.384 9.500
0.000 113.1 17.97 9.500
Fit parameter 5 has pegged
18284.0 0 116.4 19.37 1.383 9.500
0.000 113.1 17.96 9.500
Fit parameter 5 has pegged
18282.2 0 116.4 19.37 1.382 9.500
0.000 113.1 17.95 9.500
Fit parameter 5 has pegged
18281.0 0 116.4 19.37 1.381 9.500
0.000 113.1 17.95 9.500
Fit parameter 5 has pegged
18279.9 0 116.4 19.37 1.381 9.500
0.000 113.1 17.94 9.500
Fit parameter 5 has pegged
18278.3 0 116.5 19.37 1.380 9.500
0.000 113.2 17.94 9.500
Fit parameter 5 has pegged
18277.9 0 116.5 19.37 1.380 9.500
0.000 113.2 17.94 9.500
Fit parameter 5 has pegged
18276.5 0 116.5 19.37 1.379 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18275.1 0 116.5 19.37 1.379 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18273.9 0 116.5 19.37 1.379 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18272.8 0 116.5 19.37 1.378 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18272.0 0 116.6 19.37 1.378 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18271.1 0 116.6 19.37 1.377 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18270.3 0 116.6 19.37 1.377 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18269.6 0 116.6 19.37 1.377 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18269.0 0 116.6 19.37 1.376 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18268.5 0 116.6 19.37 1.376 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18267.9 0 116.7 19.37 1.376 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18267.5 0 116.7 19.37 1.375 9.500
0.000 113.2 17.93 9.500
Fit parameter 5 has pegged
18267.0 0 116.7 19.37 1.375 9.500
0.000 113.2 17.92 9.500
Fit parameter 5 has pegged
18266.5 0 116.7 19.37 1.375 9.500
0.000 113.2 17.92 9.500
Fit parameter 5 has pegged
18266.3 0 116.7 19.37 1.375 9.500
0.000 113.2 17.92 9.500
Fit parameter 5 has pegged
18266.0 0 116.7 19.37 1.374 9.500
0.000 113.2 17.92 9.500
Fit parameter 5 has pegged
18265.6 0 116.7 19.37 1.374 9.500
0.000 113.2 17.92 9.500
Fit parameter 5 has pegged
18265.5 0 116.7 19.37 1.374 9.500
0.000 113.2 17.92 9.500
Fit parameter 5 has pegged
18265.1 0 116.7 19.37 1.374 9.500
0.000 113.2 17.92 9.500
Fit parameter 5 has pegged
18264.8 0 116.7 19.37 1.373 9.500
0.000 113.2 17.92 9.500
Fit parameter 5 has pegged
18264.6 0 116.8 19.37 1.373 9.500
0.000 113.2 17.92 9.500
Fit parameter 5 has pegged
18264.4 0 116.8 19.37 1.373 9.500
0.000 113.2 17.91 9.500
Fit parameter 5 has pegged
18264.3 0 116.8 19.37 1.373 9.500
0.000 113.2 17.91 9.500
Fit parameter 5 has pegged
18264.0 0 116.8 19.37 1.373 9.500
0.000 113.2 17.91 9.500
Fit parameter 5 has pegged
18263.9 0 116.8 19.37 1.372 9.500
0.000 113.2 17.91 9.500
Fit parameter 5 has pegged
18263.7 0 116.8 19.37 1.372 9.500
0.000 113.2 17.91 9.500
Fit parameter 5 has pegged
18263.7 0 116.8 19.37 1.372 9.500
0.000 113.2 17.91 9.500
Fit parameter 5 has pegged
18263.5 0 116.8 19.37 1.372 9.500
0.000 113.3 17.91 9.500
Fit parameter 5 has pegged
18263.4 0 116.8 19.37 1.372 9.500
0.000 113.3 17.91 9.500
18263.2 0 116.8 19.37 1.372 9.500
0.000 113.3 17.91 9.500
Fit parameter 5 has pegged
18263.0 0 116.8 19.37 1.371 9.500
0.000 113.3 17.91 9.500
Fit parameter 5 has pegged
18262.8 0 116.8 19.37 1.371 9.500
0.000 113.3 17.91 9.500
Fit parameter 5 has pegged
18262.8 0 116.8 19.37 1.371 9.500
0.000 113.3 17.90 9.500
Fit parameter 5 has pegged
18262.6 0 116.8 19.37 1.371 9.500
0.000 113.3 17.90 9.500
Fit parameter 5 has pegged
18262.6 0 116.8 19.37 1.371 9.500
0.000 113.3 17.90 9.500
Fit parameter 5 has pegged
18262.5 0 116.8 19.37 1.371 9.500
0.000 113.3 17.90 9.500
Fit parameter 5 has pegged
18262.4 0 116.8 19.37 1.371 9.500
0.000 113.3 17.90 9.500
Fit parameter 5 has pegged
18262.4 0 116.8 19.37 1.370 9.500
0.000 113.3 17.90 9.500
Fit parameter 5 has pegged
18262.3 0 116.8 19.37 1.370 9.500
0.000 113.3 17.90 9.500
Fit parameter 5 has pegged
18262.3 0 116.8 19.37 1.370 9.500
0.000 113.3 17.90 9.500
Fit parameter 5 has pegged
18262.2 0 116.8 19.37 1.370 9.500
0.000 113.3 17.89 9.500
Fit parameter 5 has pegged
18262.2 3 116.8 19.37 1.370 9.500
0.000 113.3 17.89 9.500
18262.1 0 116.8 19.37 1.370 9.500
0.000 113.3 17.90 9.500
Fit parameter 5 has pegged
18262.1 3 116.8 19.37 1.370 9.500
0.000 113.3 17.90 9.500
18262.0 0 116.9 19.37 1.370 9.500
0.000 113.3 17.90 9.500
Fit parameter 5 has pegged
18262.0 0 116.9 19.37 1.370 9.500
0.000 113.3 17.90 9.500
Fit parameter 5 has pegged
18261.8 0 116.9 19.37 1.370 9.500
0.000 113.3 17.89 9.500
Fit parameter 5 has pegged
18261.8 0 116.9 19.37 1.370 9.500
0.000 113.3 17.89 9.500
Fit parameter 5 has pegged
18261.7 1 116.9 19.37 1.370 9.500
0.000 113.3 17.89 9.500
Fit parameter 5 has pegged
18261.7 4 116.9 19.37 1.370 9.500
0.000 113.3 17.89 9.500
18261.7 4 116.9 19.37 1.370 9.500
0.000 113.3 17.89 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.03E-05 | -0.01 0.00 -1.00 -0.01 0.01
1.39E-02 | -0.97 -0.07 0.01 0.19 -0.12
2.98E-02 | 0.22 0.06 -0.02 0.83 -0.52
1.79E+00 | -0.08 1.00 0.00 -0.03 0.02
4.47E-03 | 0.00 0.00 0.00 0.53 0.85
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.854 +/- 0.164953 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.33186 1
3 3 1 gaussian norm 1.36952 +/- 0.636040E-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 113.315 +/- 0.155118 2
7 7 3 gaussian Sigma keV 17.8920 +/- 0.110335 2
8 3 3 gaussian norm 1.36952 = 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 = 18261.72 using 198 PHA bins.
Reduced chi-squared = 96.11431 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 ( 92.699) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 92.699) > 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 1.106 photons ( 2.1875E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.057 photons ( 2.0371E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:03 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.481 +/- 6.7407E-03
Net count rate (cts/s) for file 2 3.481 +/- 6.7407E-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 = 367846.2 using 168 PHA bins.
Reduced chi-squared = 2299.039 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 37979.08 using 168 PHA bins.
Reduced chi-squared = 237.3692 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4751.41 -3 86.19 14.91 0.2007 0.9244
0.7183 85.78 14.62 0.9170
2784.85 -4 70.19 18.34 0.3284 0.8751
0.5439 70.41 17.93 0.8776
1750.30 0 73.11 13.45 0.3320 0.8736
0.5470 73.39 15.82 0.8751
965.378 -1 74.69 10.94 0.2449 0.8631
0.5676 75.90 9.723 0.8645
819.805 -2 74.55 9.912 0.2093 0.8495
0.5541 75.58 9.621 0.8503
791.112 -3 74.10 9.507 0.2104 0.8220
0.4907 75.34 9.648 0.8237
785.176 -4 73.98 9.500 0.2104 0.8123
0.4724 75.28 9.641 0.8133
785.060 -5 73.98 9.476 0.2101 0.8123
0.4720 75.28 9.633 0.8129
785.058 -6 73.97 9.482 0.2102 0.8123
0.4719 75.28 9.636 0.8128
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.36E-07 | 0.00 0.00 -0.19 0.58 -0.57 0.00 0.00 0.55
6.82E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.39E-06 | 0.00 0.01 -0.98 -0.11 0.12 0.00 0.01 -0.11
3.23E-04 | 0.02 0.00 -0.01 -0.42 -0.81 0.02 0.00 -0.40
2.44E-02 | -0.10 -0.72 0.00 0.00 0.00 0.10 0.68 0.00
5.42E-02 | 0.33 -0.60 -0.01 0.01 0.02 0.37 -0.63 0.01
3.50E-02 | 0.81 -0.05 0.00 0.00 0.01 -0.56 0.15 0.00
3.68E-02 | 0.47 0.35 0.01 0.01 0.02 0.73 0.34 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 73.9715 +/- 0.193341 1
2 2 1 gaussian Sigma keV 9.48202 +/- 0.191238 1
3 3 1 gaussian norm 0.210172 +/- 0.380641E-02 1
4 4 2 powerlaw PhoIndex 0.812257 +/- 0.809418E-02 1
5 5 2 powerlaw norm 0.471862 +/- 0.156654E-01 1
6 6 3 gaussian LineE keV 75.2776 +/- 0.196100 2
7 7 3 gaussian Sigma keV 9.63625 +/- 0.195022 2
8 3 3 gaussian norm 0.210172 = par 3 2
9 8 4 powerlaw PhoIndex 0.812845 +/- 0.776074E-02 2
10 5 4 powerlaw norm 0.471862 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 785.0583 using 168 PHA bins.
Reduced chi-squared = 4.906615 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 ( 4.701) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.701) > 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 1.394 photons ( 1.6819E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.391 photons ( 1.6826E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 2
XSPEC>
Information for file 1
belonging to plot group 1, data group 1
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
140.6939
=====best line=====
73.9742 0.193541
=====best sigma=====
9.47777 0.191467
=====norm=====
0.210110 0.381080E-02
=====phoindx=====
0.812291 0.809692E-02
=====pow_norm=====
0.471942 0.156651E-01
=====best line=====
75.2783 0.196177
=====best sigma=====
9.63340 0.195142
=====norm=====
0.210110 par
=====phoindx=====
0.812873 0.776335E-02
=====pow_norm=====
0.471942 par
=====redu_chi=====
4.906621
=====area_flux=====
1.394
=====area_flux_f=====
1.391
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 8 1 640 2000 1183.5872 0 0.210110 0.381080E-02 9.47777 0.191467 0.812291 0.809692E-02 0.471942 0.156651E-01 1.394 640 2000 1204.4528 0 0.210110 0.381080E-02 9.63340 0.195142 0.812873 0.776335E-02 0.471942 0.156651E-01 1.391 4.906621 1
=====redu_chi=====
571.1469
=====best line=====
116.854 0.164953
=====best sigma=====
19.3655 1.33186
=====norm=====
1.36952 0.636040E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.315 0.155118
=====best sigma=====
17.8920 0.110335
=====norm=====
1.36952 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
96.11431
=====area_flux=====
1.106
=====area_flux_f=====
1.057
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 8 1 1600 3200 1869.664 0 1.36952 0.636040E-02 309.848 21.30976 9.50000 -1.00000 0.00000 -1.00000 1.106 1600 3200 1813.04 0 1.36952 0.636040E-02 286.272 1.76536 9.50000 -1.00000 0.00000 -1.00000 1.057 96.11431 1
=====redu_chi=====
237.3692
=====best line=====
73.9715 0.193341
=====best sigma=====
9.48202 0.191238
=====norm=====
0.210172 0.380641E-02
=====phoindx=====
0.812257 0.809418E-02
=====pow_norm=====
0.471862 0.156654E-01
=====best line=====
75.2776 0.196100
=====best sigma=====
9.63625 0.195022
=====norm=====
0.210172 par
=====phoindx=====
0.812845 0.776074E-02
=====pow_norm=====
0.471862 par
=====redu_chi=====
4.906615
=====area_flux=====
1.394
=====area_flux_f=====
1.391
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 8 1 640 2000 1183.544 0 0.210172 0.380641E-02 9.48202 0.191238 0.812257 0.809418E-02 0.471862 0.156654E-01 1.394 640 2000 1204.4416 0 0.210172 0.380641E-02 9.63625 0.195022 0.812845 0.776074E-02 0.471862 0.156654E-01 1.391 4.906615 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:22:03 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.321 +/- 5.5044E-03
Net count rate (cts/s) for file 2 2.321 +/- 5.5044E-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 = 662318.5 using 168 PHA bins.
Reduced chi-squared = 4139.491 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13332.36 using 168 PHA bins.
Reduced chi-squared = 83.32722 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3315.97 -3 83.39 16.84 0.2170 0.9935
0.5223 83.58 16.70 0.9852
2518.66 -3 76.79 10.26 0.1480 0.8145
0.2721 77.57 9.993 0.8200
717.786 -4 76.57 9.792 0.1302 0.8563
0.3617 77.75 9.760 0.8510
556.404 -5 76.49 8.840 0.1322 0.8491
0.3668 77.73 9.300 0.8484
554.704 -6 76.34 9.150 0.1347 0.8489
0.3652 77.69 9.485 0.8481
554.535 -7 76.39 9.047 0.1338 0.8489
0.3656 77.70 9.424 0.8481
554.513 -8 76.37 9.083 0.1341 0.8489
0.3654 77.70 9.445 0.8481
554.511 -9 76.37 9.070 0.1340 0.8489
0.3655 77.70 9.438 0.8481
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.16E-07 | 0.00 0.00 -0.27 0.51 -0.65 0.00 0.00 0.49
1.02E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
4.66E-06 | 0.00 0.01 -0.96 -0.13 0.19 0.00 0.01 -0.14
3.63E-04 | 0.02 0.00 -0.01 -0.49 -0.73 0.02 0.01 -0.47
3.53E-02 | -0.13 -0.75 0.00 0.00 0.00 0.08 0.64 0.00
7.31E-02 | 0.26 -0.58 -0.01 0.00 0.01 0.35 -0.68 0.00
4.97E-02 | 0.93 -0.01 0.00 0.01 0.01 -0.29 0.21 0.01
5.45E-02 | 0.21 0.30 0.00 0.01 0.02 0.89 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 76.3748 +/- 0.226322 1
2 2 1 gaussian Sigma keV 9.06998 +/- 0.223620 1
3 3 1 gaussian norm 0.134004 +/- 0.292619E-02 1
4 4 2 powerlaw PhoIndex 0.848881 +/- 0.993535E-02 1
5 5 2 powerlaw norm 0.365456 +/- 0.146834E-01 1
6 6 3 gaussian LineE keV 77.6983 +/- 0.237170 2
7 7 3 gaussian Sigma keV 9.43777 +/- 0.234751 2
8 3 3 gaussian norm 0.134004 = par 3 2
9 8 4 powerlaw PhoIndex 0.848080 +/- 0.953798E-02 2
10 5 4 powerlaw norm 0.365456 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 554.5106 using 168 PHA bins.
Reduced chi-squared = 3.465691 for 160 degrees of freedom
Null hypothesis probability = 5.605E-45
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 ( 3.320) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.320) > 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 0.9184 photons ( 1.1094E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9211 photons ( 1.1156E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:22:03 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.356 +/- 8.3611E-03
Net count rate (cts/s) for file 2 5.356 +/- 8.3611E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.035 +/- 1.0010E-02( 56.7% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.035 +/- 1.0010E-02( 56.7% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.3286796E+07 using 198 PHA bins.
Reduced chi-squared = 69930.51 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 78977.54 using 198 PHA bins.
Reduced chi-squared = 415.6713 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
41096.4 -3 116.8 19.17 0.3530 2.771
0.1183 113.2 19.18 2.724
14325.7 -2 112.0 19.34 1.108 8.621
5.8703E-02 110.3 19.31 7.810
13860.9 0 113.2 19.35 1.094 9.229
4.1720E-03 111.2 19.35 9.138
13573.0 0 114.1 19.36 1.080 9.408
1.6902E-03 111.8 19.36 9.404
13391.5 0 114.8 19.36 1.067 9.476
2.5613E-04 112.3 19.37 9.494
13275.6 0 115.4 19.37 1.056 9.498
9.4886E-05 112.7 19.37 9.498
13205.6 0 115.8 19.37 1.046 9.499
7.7071E-06 113.0 19.37 9.499
13165.7 0 116.2 19.37 1.038 9.500
2.0917E-06 113.2 19.37 9.500
13144.6 0 116.5 19.37 1.031 9.500
6.6787E-07 113.4 19.37 9.500
13134.8 0 116.7 19.37 1.026 9.500
3.1087E-07 113.5 19.37 9.500
13129.6 0 116.9 19.37 1.022 9.500
1.3099E-07 113.6 19.37 9.500
13128.5 0 117.0 19.37 1.019 9.500
4.0759E-08 113.7 19.37 9.500
12913.3 0 117.2 19.37 1.011 9.500
1.0289E-11 113.6 19.15 9.500
12891.4 0 117.2 19.37 1.008 9.500
2.8872E-12 113.6 19.10 9.500
12882.0 0 117.3 19.37 1.007 9.500
1.0376E-12 113.7 19.08 9.500
12873.3 0 117.3 19.37 1.005 9.500
1.1566E-13 113.8 19.05 9.500
Fit parameter 5 has pegged
12707.2 0 117.3 19.37 0.9981 9.500
0.000 113.6 18.49 9.500
Fit parameter 5 has pegged
12697.1 0 117.3 19.37 0.9941 9.500
0.000 113.7 18.49 9.500
Fit parameter 5 has pegged
12690.6 0 117.3 19.37 0.9915 9.500
0.000 113.7 18.46 9.500
Fit parameter 5 has pegged
12685.9 0 117.3 19.37 0.9897 9.500
0.000 113.8 18.44 9.500
Fit parameter 5 has pegged
12682.5 0 117.3 19.37 0.9885 9.500
0.000 113.9 18.42 9.500
Fit parameter 5 has pegged
12677.9 0 117.4 19.37 0.9872 9.500
0.000 113.9 18.41 9.500
Fit parameter 5 has pegged
12674.8 0 117.4 19.37 0.9862 9.500
0.000 113.9 18.39 9.500
Fit parameter 5 has pegged
12672.6 0 117.4 19.37 0.9855 9.500
0.000 114.0 18.38 9.500
Fit parameter 5 has pegged
12670.1 0 117.4 19.37 0.9847 9.500
0.000 114.0 18.37 9.500
Fit parameter 5 has pegged
12669.0 0 117.4 19.37 0.9843 9.500
0.000 114.0 18.36 9.500
Fit parameter 5 has pegged
12668.8 0 117.4 19.37 0.9842 9.500
0.000 114.0 18.35 9.500
Fit parameter 5 has pegged
12668.2 0 117.4 19.37 0.9839 9.500
0.000 114.1 18.35 9.500
Fit parameter 5 has pegged
12666.9 0 117.4 19.37 0.9835 9.500
0.000 114.1 18.34 9.500
Fit parameter 5 has pegged
12665.6 0 117.5 19.37 0.9831 9.500
0.000 114.1 18.34 9.500
Fit parameter 5 has pegged
12665.0 0 117.5 19.37 0.9829 9.500
0.000 114.1 18.33 9.500
Fit parameter 5 has pegged
12661.6 0 117.5 19.37 0.9822 9.500
0.000 114.1 18.33 9.500
Fit parameter 5 has pegged
12658.5 0 117.5 19.37 0.9816 9.500
0.000 114.1 18.33 9.500
Fit parameter 5 has pegged
12655.6 0 117.6 19.37 0.9810 9.500
0.000 114.1 18.33 9.500
Fit parameter 5 has pegged
12653.1 0 117.6 19.37 0.9804 9.500
0.000 114.1 18.33 9.500
Fit parameter 5 has pegged
12650.8 0 117.7 19.37 0.9799 9.500
0.000 114.1 18.33 9.500
Fit parameter 5 has pegged
12648.7 0 117.7 19.37 0.9793 9.500
0.000 114.1 18.33 9.500
Fit parameter 5 has pegged
12646.9 0 117.7 19.37 0.9788 9.500
0.000 114.1 18.33 9.500
Fit parameter 5 has pegged
12645.2 0 117.8 19.37 0.9784 9.500
0.000 114.1 18.33 9.500
Fit parameter 5 has pegged
12643.6 0 117.8 19.37 0.9779 9.500
0.000 114.1 18.33 9.500
Fit parameter 5 has pegged
12642.2 0 117.8 19.37 0.9775 9.500
0.000 114.1 18.32 9.500
Fit parameter 5 has pegged
12641.0 0 117.8 19.37 0.9770 9.500
0.000 114.1 18.32 9.500
Fit parameter 5 has pegged
12639.8 0 117.9 19.37 0.9766 9.500
0.000 114.1 18.32 9.500
Fit parameter 5 has pegged
12638.7 0 117.9 19.37 0.9763 9.500
0.000 114.1 18.32 9.500
Fit parameter 5 has pegged
12637.8 0 117.9 19.37 0.9759 9.500
0.000 114.1 18.32 9.500
Fit parameter 5 has pegged
12636.9 0 117.9 19.37 0.9755 9.500
0.000 114.1 18.32 9.500
Fit parameter 5 has pegged
12636.0 0 117.9 19.37 0.9752 9.500
0.000 114.2 18.31 9.500
Fit parameter 5 has pegged
12635.3 0 118.0 19.37 0.9749 9.500
0.000 114.2 18.31 9.500
Fit parameter 5 has pegged
12634.6 0 118.0 19.37 0.9746 9.500
0.000 114.2 18.31 9.500
Fit parameter 5 has pegged
12633.9 0 118.0 19.37 0.9743 9.500
0.000 114.2 18.31 9.500
Fit parameter 5 has pegged
12633.3 0 118.0 19.37 0.9740 9.500
0.000 114.2 18.31 9.500
Fit parameter 5 has pegged
12632.8 0 118.0 19.37 0.9737 9.500
0.000 114.2 18.30 9.500
Fit parameter 5 has pegged
12632.2 0 118.0 19.37 0.9734 9.500
0.000 114.2 18.30 9.500
Fit parameter 5 has pegged
12631.7 0 118.0 19.37 0.9732 9.500
0.000 114.2 18.30 9.500
Fit parameter 5 has pegged
12631.3 0 118.0 19.37 0.9729 9.500
0.000 114.2 18.30 9.500
Fit parameter 5 has pegged
12630.8 0 118.1 19.37 0.9727 9.500
0.000 114.2 18.30 9.500
Fit parameter 5 has pegged
12630.5 0 118.1 19.37 0.9725 9.500
0.000 114.2 18.29 9.500
Fit parameter 5 has pegged
12630.2 0 118.1 19.37 0.9722 9.500
0.000 114.2 18.29 9.500
Fit parameter 5 has pegged
12629.8 0 118.1 19.37 0.9720 9.500
0.000 114.2 18.29 9.500
Fit parameter 5 has pegged
12629.4 0 118.1 19.37 0.9718 9.500
0.000 114.2 18.29 9.500
Fit parameter 5 has pegged
12629.1 0 118.1 19.37 0.9716 9.500
0.000 114.2 18.29 9.500
Fit parameter 5 has pegged
12628.9 0 118.1 19.37 0.9714 9.500
0.000 114.2 18.28 9.500
Fit parameter 5 has pegged
12628.6 0 118.1 19.37 0.9712 9.500
0.000 114.2 18.28 9.500
Fit parameter 5 has pegged
12628.3 0 118.1 19.37 0.9711 9.500
0.000 114.2 18.28 9.500
Fit parameter 5 has pegged
12628.2 0 118.1 19.37 0.9709 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12627.9 0 118.1 19.37 0.9707 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12627.7 0 118.1 19.37 0.9706 9.500
0.000 114.3 18.28 9.500
Fit parameter 5 has pegged
12627.5 0 118.2 19.37 0.9704 9.500
0.000 114.3 18.27 9.500
Fit parameter 5 has pegged
12627.3 0 118.2 19.37 0.9703 9.500
0.000 114.3 18.27 9.500
Fit parameter 5 has pegged
12627.1 0 118.2 19.37 0.9701 9.500
0.000 114.3 18.27 9.500
Fit parameter 5 has pegged
12626.9 0 118.2 19.37 0.9700 9.500
0.000 114.3 18.27 9.500
Fit parameter 5 has pegged
12626.8 0 118.2 19.37 0.9698 9.500
0.000 114.3 18.27 9.500
Fit parameter 5 has pegged
12626.6 0 118.2 19.37 0.9697 9.500
0.000 114.3 18.26 9.500
Fit parameter 5 has pegged
12626.5 0 118.2 19.37 0.9696 9.500
0.000 114.3 18.26 9.500
Fit parameter 5 has pegged
12626.3 0 118.2 19.37 0.9695 9.500
0.000 114.3 18.26 9.500
Fit parameter 5 has pegged
12626.2 0 118.2 19.37 0.9693 9.500
0.000 114.3 18.26 9.500
Fit parameter 5 has pegged
12626.2 0 118.2 19.37 0.9692 9.500
0.000 114.3 18.26 9.500
Fit parameter 5 has pegged
12625.9 0 118.2 19.37 0.9691 9.500
0.000 114.3 18.26 9.500
Fit parameter 5 has pegged
12625.8 0 118.2 19.37 0.9690 9.500
0.000 114.3 18.26 9.500
Fit parameter 5 has pegged
12625.8 0 118.2 19.37 0.9689 9.500
0.000 114.3 18.25 9.500
Fit parameter 5 has pegged
12625.7 0 118.2 19.37 0.9688 9.500
0.000 114.3 18.25 9.500
Fit parameter 5 has pegged
12625.6 0 118.2 19.37 0.9687 9.500
0.000 114.3 18.25 9.500
Fit parameter 5 has pegged
12625.5 0 118.2 19.37 0.9686 9.500
0.000 114.3 18.25 9.500
Fit parameter 5 has pegged
12625.4 0 118.2 19.37 0.9685 9.500
0.000 114.3 18.25 9.500
Fit parameter 5 has pegged
12625.3 0 118.2 19.37 0.9684 9.500
0.000 114.3 18.25 9.500
Fit parameter 5 has pegged
12625.2 0 118.2 19.37 0.9683 9.500
0.000 114.3 18.24 9.500
Fit parameter 5 has pegged
12625.2 0 118.2 19.37 0.9682 9.500
0.000 114.3 18.24 9.500
Fit parameter 5 has pegged
12625.1 0 118.2 19.37 0.9682 9.500
0.000 114.3 18.24 9.500
Fit parameter 5 has pegged
12625.0 0 118.2 19.37 0.9681 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12624.9 0 118.2 19.37 0.9680 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12624.9 0 118.2 19.37 0.9679 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12624.9 0 118.2 19.37 0.9679 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12624.8 0 118.2 19.37 0.9678 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12624.8 0 118.2 19.37 0.9677 9.500
0.000 114.4 18.24 9.500
Fit parameter 5 has pegged
12624.7 0 118.2 19.37 0.9676 9.500
0.000 114.4 18.23 9.500
Fit parameter 5 has pegged
12624.6 0 118.2 19.37 0.9676 9.500
0.000 114.4 18.23 9.500
Fit parameter 5 has pegged
12624.5 0 118.2 19.37 0.9675 9.500
0.000 114.4 18.23 9.500
Fit parameter 5 has pegged
12624.5 0 118.2 19.37 0.9675 9.500
0.000 114.4 18.23 9.500
Fit parameter 5 has pegged
12624.4 0 118.2 19.37 0.9674 9.500
0.000 114.4 18.23 9.500
Fit parameter 5 has pegged
12624.4 4 118.2 19.37 0.9674 9.500
0.000 114.4 18.23 9.500
Fit parameter 5 has pegged
12624.4 4 118.2 19.37 0.9674 9.500
0.000 114.4 18.23 9.500
12624.4 4 118.2 19.37 0.9674 9.500
0.000 114.4 18.23 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.36E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.01E-02 | 0.04 0.00 0.00 -0.73 -0.68
1.98E-02 | -0.99 -0.07 0.01 0.07 -0.13
5.40E-02 | 0.14 0.05 -0.01 0.67 -0.72
2.66E+00 | -0.07 1.00 0.00 -0.03 0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.242 +/- 0.184436 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.62589 1
3 3 1 gaussian norm 0.967390 +/- 0.511064E-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 114.383 +/- 0.180296 2
7 7 3 gaussian Sigma keV 18.2296 +/- 0.188070 2
8 3 3 gaussian norm 0.967390 = 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 = 12624.42 using 198 PHA bins.
Reduced chi-squared = 66.44432 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 ( 64.083) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 64.083) > 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 0.7998 photons ( 1.5921E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7593 photons ( 1.4741E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:04 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.321 +/- 5.5044E-03
Net count rate (cts/s) for file 2 2.321 +/- 5.5044E-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 = 775525.4 using 168 PHA bins.
Reduced chi-squared = 4847.034 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 22782.19 using 168 PHA bins.
Reduced chi-squared = 142.3887 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2975.11 -3 85.94 14.71 0.1436 0.9476
0.4966 85.89 14.22 0.9381
2098.18 -4 73.45 16.70 0.1725 0.8402
0.3091 74.65 15.93 0.8432
844.961 -1 77.86 7.784 0.1453 0.8308
0.3285 78.23 9.111 0.8282
560.902 -2 76.66 9.136 0.1345 0.8331
0.3407 77.68 9.476 0.8319
555.474 -3 76.36 9.097 0.1340 0.8450
0.3582 77.67 9.436 0.8437
554.569 -4 76.38 9.065 0.1340 0.8489
0.3651 77.70 9.436 0.8479
554.510 -5 76.37 9.076 0.1341 0.8489
0.3654 77.70 9.441 0.8481
554.510 -6 76.37 9.072 0.1340 0.8489
0.3654 77.70 9.439 0.8481
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.16E-07 | 0.00 0.00 -0.27 0.51 -0.65 0.00 0.00 0.49
1.02E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
4.66E-06 | 0.00 0.01 -0.96 -0.13 0.19 0.00 0.01 -0.14
3.63E-04 | 0.02 0.00 -0.01 -0.49 -0.73 0.02 0.01 -0.47
3.53E-02 | -0.13 -0.75 0.00 0.00 0.00 0.08 0.64 0.00
7.31E-02 | 0.26 -0.58 -0.01 0.00 0.01 0.35 -0.68 0.00
4.96E-02 | 0.93 -0.01 0.00 0.01 0.01 -0.29 0.21 0.01
5.44E-02 | 0.21 0.30 0.00 0.01 0.02 0.89 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 76.3735 +/- 0.226176 1
2 2 1 gaussian Sigma keV 9.07246 +/- 0.223456 1
3 3 1 gaussian norm 0.134026 +/- 0.292426E-02 1
4 4 2 powerlaw PhoIndex 0.848878 +/- 0.993390E-02 1
5 5 2 powerlaw norm 0.365443 +/- 0.146822E-01 1
6 6 3 gaussian LineE keV 77.6979 +/- 0.237112 2
7 7 3 gaussian Sigma keV 9.43925 +/- 0.234664 2
8 3 3 gaussian norm 0.134026 = par 3 2
9 8 4 powerlaw PhoIndex 0.848077 +/- 0.953659E-02 2
10 5 4 powerlaw norm 0.365443 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 554.5103 using 168 PHA bins.
Reduced chi-squared = 3.465689 for 160 degrees of freedom
Null hypothesis probability = 5.605E-45
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 ( 3.320) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.320) > 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 0.9184 photons ( 1.1095E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9211 photons ( 1.1156E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
83.32722
=====best line=====
76.3748 0.226322
=====best sigma=====
9.06998 0.223620
=====norm=====
0.134004 0.292619E-02
=====phoindx=====
0.848881 0.993535E-02
=====pow_norm=====
0.365456 0.146834E-01
=====best line=====
77.6983 0.237170
=====best sigma=====
9.43777 0.234751
=====norm=====
0.134004 par
=====phoindx=====
0.848080 0.953798E-02
=====pow_norm=====
0.365456 par
=====redu_chi=====
3.465691
=====area_flux=====
0.9184
=====area_flux_f=====
0.9211
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 9 1 640 2000 1221.9968 0 0.134004 0.292619E-02 9.06998 0.223620 0.848881 0.993535E-02 0.365456 0.146834E-01 0.9184 640 2000 1243.1728 0 0.134004 0.292619E-02 9.43777 0.234751 0.848080 0.953798E-02 0.365456 0.146834E-01 0.9211 3.465691 1
=====redu_chi=====
415.6713
=====best line=====
118.242 0.184436
=====best sigma=====
19.3655 1.62589
=====norm=====
0.967390 0.511064E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.383 0.180296
=====best sigma=====
18.2296 0.188070
=====norm=====
0.967390 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
66.44432
=====area_flux=====
0.7998
=====area_flux_f=====
0.7593
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 9 1 1600 3200 1891.872 0 0.967390 0.511064E-02 309.848 26.01424 9.50000 -1.00000 0.00000 -1.00000 0.7998 1600 3200 1830.128 0 0.967390 0.511064E-02 291.6736 3.00912 9.50001 -1.00000 0.00000 -1.00000 0.7593 66.44432 1
=====redu_chi=====
142.3887
=====best line=====
76.3735 0.226176
=====best sigma=====
9.07246 0.223456
=====norm=====
0.134026 0.292426E-02
=====phoindx=====
0.848878 0.993390E-02
=====pow_norm=====
0.365443 0.146822E-01
=====best line=====
77.6979 0.237112
=====best sigma=====
9.43925 0.234664
=====norm=====
0.134026 par
=====phoindx=====
0.848077 0.953659E-02
=====pow_norm=====
0.365443 par
=====redu_chi=====
3.465689
=====area_flux=====
0.9184
=====area_flux_f=====
0.9211
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 9 1 640 2000 1221.976 0 0.134026 0.292426E-02 9.07246 0.223456 0.848878 0.993390E-02 0.365443 0.146822E-01 0.9184 640 2000 1243.1664 0 0.134026 0.292426E-02 9.43925 0.234664 0.848077 0.953659E-02 0.365443 0.146822E-01 0.9211 3.465689 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:22:04 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.327 +/- 5.5110E-03
Net count rate (cts/s) for file 2 2.327 +/- 5.5110E-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 = 737622.8 using 168 PHA bins.
Reduced chi-squared = 4610.142 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16769.83 using 168 PHA bins.
Reduced chi-squared = 104.8115 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
9665.65 -3 82.00 16.75 0.2016 1.096
0.6329 81.66 16.80 1.086
1303.05 -3 75.47 8.018 0.1247 0.8667
0.4117 74.43 7.939 0.8778
999.894 -3 76.14 9.995 0.1529 0.9714
0.5523 76.03 11.78 0.9704
801.122 -4 76.77 9.705 0.1443 1.029
0.7187 76.77 9.767 1.027
620.916 -5 76.60 9.488 0.1525 1.024
0.7329 76.46 9.611 1.026
620.820 -6 76.58 9.546 0.1531 1.024
0.7325 76.47 9.664 1.026
620.812 -7 76.59 9.525 0.1528 1.024
0.7326 76.48 9.648 1.026
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.19E-07 | 0.00 0.00 -0.36 0.61 -0.39 0.00 0.00 0.58
1.12E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.08E-06 | 0.00 0.01 -0.93 -0.23 0.16 0.00 0.01 -0.23
1.01E-03 | 0.04 0.01 -0.01 -0.31 -0.90 0.04 0.01 -0.29
2.95E-02 | -0.14 -0.71 0.00 0.00 0.00 0.13 0.68 0.00
6.36E-02 | 0.33 -0.60 -0.01 0.00 0.01 0.36 -0.63 0.00
4.28E-02 | 0.84 -0.06 0.00 0.00 0.01 -0.50 0.20 0.00
4.44E-02 | 0.41 0.36 0.00 0.02 0.05 0.77 0.31 0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.5896 +/- 0.212070 1
2 2 1 gaussian Sigma keV 9.52490 +/- 0.209341 1
3 3 1 gaussian norm 0.152847 +/- 0.301188E-02 1
4 4 2 powerlaw PhoIndex 1.02432 +/- 0.103838E-01 1
5 5 2 powerlaw norm 0.732597 +/- 0.305103E-01 1
6 6 3 gaussian LineE keV 76.4751 +/- 0.214886 2
7 7 3 gaussian Sigma keV 9.64768 +/- 0.212474 2
8 3 3 gaussian norm 0.152847 = par 3 2
9 8 4 powerlaw PhoIndex 1.02602 +/- 0.995579E-02 2
10 5 4 powerlaw norm 0.732597 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 620.8118 using 168 PHA bins.
Reduced chi-squared = 3.880074 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 ( 3.717) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.717) > 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 0.8977 photons ( 1.0692E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8923 photons ( 1.0624E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:22:04 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.484 +/- 8.4607E-03
Net count rate (cts/s) for file 2 5.484 +/- 8.4607E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.158 +/- 1.0097E-02( 57.6% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.158 +/- 1.0097E-02( 57.6% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.2213896E+07 using 198 PHA bins.
Reduced chi-squared = 64283.66 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 79278.87 using 198 PHA bins.
Reduced chi-squared = 417.2572 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
42000.8 -3 118.3 18.81 0.3277 2.840
0.1387 114.2 18.86 2.781
18423.5 -2 107.7 19.20 1.124 7.221
4.7000E-02 105.9 19.26 7.977
16898.0 0 109.4 19.36 1.117 8.806
2.2138E-02 107.7 19.32 9.213
15929.9 0 110.8 19.36 1.102 9.461
2.2485E-03 109.0 19.35 9.427
15220.5 0 112.0 19.36 1.085 9.488
4.1259E-04 110.0 19.36 9.469
14689.8 0 113.0 19.37 1.067 9.494
5.3913E-05 110.8 19.36 9.488
14298.7 0 113.8 19.37 1.051 9.497
2.1220E-07 111.5 19.37 9.499
14009.7 0 114.5 19.37 1.037 9.499
9.7320E-08 112.0 19.37 9.500
13802.7 0 115.0 19.37 1.025 9.500
3.8032E-08 112.4 19.37 9.500
13656.0 0 115.5 19.37 1.016 9.500
7.7449E-09 112.7 19.37 9.500
13549.9 0 115.9 19.37 1.007 9.500
3.8714E-09 112.9 19.37 9.500
13367.8 0 116.6 19.37 0.9887 9.500
3.1410E-10 113.4 19.37 9.500
13338.6 0 116.7 19.37 0.9847 9.500
1.3076E-10 113.5 19.37 9.500
13319.1 0 116.8 19.37 0.9819 9.500
3.8216E-11 113.6 19.37 9.500
13303.8 0 116.9 19.37 0.9796 9.500
1.5172E-11 113.7 19.37 9.500
13293.8 0 117.0 19.37 0.9780 9.500
3.5927E-12 113.7 19.37 9.500
13283.9 0 117.1 19.37 0.9763 9.500
6.9237E-13 113.8 19.37 9.500
13279.0 0 117.1 19.37 0.9755 9.500
3.2962E-13 113.8 19.37 9.500
Fit parameter 5 has pegged
13265.5 0 117.1 19.37 0.9716 9.500
0.000 113.7 19.37 9.500
Fit parameter 5 has pegged
13262.6 0 117.1 19.37 0.9703 9.500
0.000 113.7 19.37 9.500
Fit parameter 5 has pegged
13262.5 0 117.1 19.37 0.9700 9.500
0.000 113.7 19.37 9.500
Fit parameter 5 has pegged
13255.2 0 117.1 19.37 0.9687 9.500
0.000 113.7 19.37 9.500
Fit parameter 5 has pegged
13248.5 0 117.2 19.37 0.9675 9.500
0.000 113.7 19.37 9.500
Fit parameter 5 has pegged
13242.4 0 117.2 19.37 0.9664 9.500
0.000 113.7 19.37 9.500
Fit parameter 5 has pegged
13236.8 0 117.3 19.37 0.9654 9.500
0.000 113.7 19.37 9.500
Fit parameter 5 has pegged
13231.7 0 117.3 19.37 0.9644 9.500
0.000 113.7 19.37 9.500
Fit parameter 5 has pegged
13227.0 0 117.4 19.37 0.9634 9.500
0.000 113.7 19.37 9.500
Fit parameter 5 has pegged
13222.8 0 117.4 19.37 0.9625 9.500
0.000 113.7 19.37 9.500
Fit parameter 5 has pegged
13218.9 0 117.5 19.37 0.9617 9.500
0.000 113.7 19.36 9.500
Fit parameter 5 has pegged
13215.3 0 117.5 19.37 0.9609 9.500
0.000 113.7 19.36 9.500
Fit parameter 5 has pegged
13212.0 0 117.6 19.37 0.9601 9.500
0.000 113.7 19.36 9.500
Fit parameter 5 has pegged
13209.0 0 117.6 19.37 0.9594 9.500
0.000 113.7 19.36 9.500
Fit parameter 5 has pegged
13206.1 0 117.6 19.37 0.9587 9.500
0.000 113.7 19.36 9.500
Fit parameter 5 has pegged
13203.5 0 117.7 19.37 0.9581 9.500
0.000 113.7 19.36 9.500
Fit parameter 5 has pegged
13201.1 0 117.7 19.37 0.9574 9.500
0.000 113.8 19.36 9.500
Fit parameter 5 has pegged
13198.9 0 117.7 19.37 0.9568 9.500
0.000 113.8 19.35 9.500
Fit parameter 5 has pegged
13196.9 0 117.7 19.37 0.9563 9.500
0.000 113.8 19.35 9.500
Fit parameter 5 has pegged
13195.0 0 117.8 19.37 0.9557 9.500
0.000 113.8 19.35 9.500
Fit parameter 5 has pegged
13193.2 0 117.8 19.37 0.9552 9.500
0.000 113.8 19.35 9.500
Fit parameter 5 has pegged
13191.6 0 117.8 19.37 0.9547 9.500
0.000 113.8 19.34 9.500
Fit parameter 5 has pegged
13190.1 0 117.8 19.37 0.9543 9.500
0.000 113.8 19.34 9.500
Fit parameter 5 has pegged
13188.7 0 117.9 19.37 0.9538 9.500
0.000 113.8 19.34 9.500
Fit parameter 5 has pegged
13187.3 0 117.9 19.37 0.9534 9.500
0.000 113.8 19.34 9.500
Fit parameter 5 has pegged
13186.1 0 117.9 19.37 0.9530 9.500
0.000 113.8 19.34 9.500
Fit parameter 5 has pegged
13184.9 0 117.9 19.37 0.9526 9.500
0.000 113.8 19.33 9.500
Fit parameter 5 has pegged
13183.8 0 118.0 19.37 0.9522 9.500
0.000 113.8 19.33 9.500
Fit parameter 5 has pegged
13182.7 0 118.0 19.37 0.9518 9.500
0.000 113.9 19.32 9.500
Fit parameter 5 has pegged
13181.8 0 118.0 19.37 0.9514 9.500
0.000 113.9 19.32 9.500
Fit parameter 5 has pegged
13180.8 0 118.0 19.37 0.9511 9.500
0.000 113.9 19.32 9.500
Fit parameter 5 has pegged
13179.9 0 118.0 19.37 0.9508 9.500
0.000 113.9 19.31 9.500
Fit parameter 5 has pegged
13179.1 0 118.0 19.37 0.9504 9.500
0.000 113.9 19.31 9.500
Fit parameter 5 has pegged
13178.3 0 118.0 19.37 0.9501 9.500
0.000 113.9 19.31 9.500
Fit parameter 5 has pegged
13177.6 0 118.1 19.37 0.9498 9.500
0.000 113.9 19.31 9.500
Fit parameter 5 has pegged
13176.9 0 118.1 19.37 0.9495 9.500
0.000 113.9 19.30 9.500
Fit parameter 5 has pegged
13176.3 0 118.1 19.37 0.9492 9.500
0.000 113.9 19.30 9.500
Fit parameter 5 has pegged
13175.6 0 118.1 19.37 0.9490 9.500
0.000 113.9 19.30 9.500
Fit parameter 5 has pegged
13175.0 0 118.1 19.37 0.9487 9.500
0.000 113.9 19.29 9.500
Fit parameter 5 has pegged
13174.4 0 118.1 19.37 0.9485 9.500
0.000 113.9 19.29 9.500
Fit parameter 5 has pegged
13173.9 0 118.1 19.37 0.9482 9.500
0.000 114.0 19.29 9.500
Fit parameter 5 has pegged
13173.4 0 118.1 19.37 0.9480 9.500
0.000 114.0 19.28 9.500
Fit parameter 5 has pegged
13172.9 0 118.1 19.37 0.9477 9.500
0.000 114.0 19.28 9.500
Fit parameter 5 has pegged
13172.5 0 118.2 19.37 0.9475 9.500
0.000 114.0 19.28 9.500
Fit parameter 5 has pegged
13172.1 0 118.2 19.37 0.9473 9.500
0.000 114.0 19.28 9.500
Fit parameter 5 has pegged
13171.7 0 118.2 19.37 0.9471 9.500
0.000 114.0 19.27 9.500
Fit parameter 5 has pegged
13171.3 0 118.2 19.37 0.9469 9.500
0.000 114.0 19.27 9.500
Fit parameter 5 has pegged
13170.9 0 118.2 19.37 0.9467 9.500
0.000 114.0 19.27 9.500
Fit parameter 5 has pegged
13170.5 0 118.2 19.37 0.9465 9.500
0.000 114.0 19.27 9.500
Fit parameter 5 has pegged
13170.3 0 118.2 19.37 0.9463 9.500
0.000 114.0 19.26 9.500
Fit parameter 5 has pegged
13169.9 0 118.2 19.37 0.9461 9.500
0.000 114.0 19.26 9.500
Fit parameter 5 has pegged
13169.6 0 118.2 19.37 0.9459 9.500
0.000 114.0 19.26 9.500
Fit parameter 5 has pegged
13169.3 0 118.2 19.37 0.9458 9.500
0.000 114.0 19.26 9.500
Fit parameter 5 has pegged
13169.1 0 118.2 19.37 0.9456 9.500
0.000 114.0 19.25 9.500
Fit parameter 5 has pegged
13168.8 0 118.2 19.37 0.9454 9.500
0.000 114.1 19.25 9.500
Fit parameter 5 has pegged
13168.6 0 118.2 19.37 0.9453 9.500
0.000 114.1 19.25 9.500
Fit parameter 5 has pegged
13168.3 0 118.2 19.37 0.9451 9.500
0.000 114.1 19.25 9.500
Fit parameter 5 has pegged
13168.0 0 118.3 19.37 0.9450 9.500
0.000 114.1 19.25 9.500
Fit parameter 5 has pegged
13167.9 0 118.3 19.37 0.9448 9.500
0.000 114.1 19.24 9.500
Fit parameter 5 has pegged
13167.6 0 118.3 19.37 0.9447 9.500
0.000 114.1 19.24 9.500
Fit parameter 5 has pegged
13167.4 0 118.3 19.37 0.9446 9.500
0.000 114.1 19.24 9.500
Fit parameter 5 has pegged
13167.2 0 118.3 19.37 0.9444 9.500
0.000 114.1 19.24 9.500
Fit parameter 5 has pegged
13167.1 0 118.3 19.37 0.9443 9.500
0.000 114.1 19.23 9.500
Fit parameter 5 has pegged
13166.9 0 118.3 19.37 0.9442 9.500
0.000 114.1 19.23 9.500
Fit parameter 5 has pegged
13166.7 0 118.3 19.37 0.9441 9.500
0.000 114.1 19.23 9.500
Fit parameter 5 has pegged
13166.5 0 118.3 19.37 0.9439 9.500
0.000 114.1 19.23 9.500
Fit parameter 5 has pegged
13166.4 0 118.3 19.37 0.9438 9.500
0.000 114.1 19.22 9.500
Fit parameter 5 has pegged
13166.2 0 118.3 19.37 0.9437 9.500
0.000 114.1 19.22 9.500
Fit parameter 5 has pegged
13166.0 0 118.3 19.37 0.9436 9.500
0.000 114.1 19.22 9.500
Fit parameter 5 has pegged
13165.9 0 118.3 19.37 0.9435 9.500
0.000 114.1 19.22 9.500
Fit parameter 5 has pegged
13165.8 0 118.3 19.37 0.9434 9.500
0.000 114.1 19.22 9.500
Fit parameter 5 has pegged
13165.6 0 118.3 19.37 0.9433 9.500
0.000 114.1 19.22 9.500
Fit parameter 5 has pegged
13165.5 0 118.3 19.37 0.9432 9.500
0.000 114.2 19.22 9.500
Fit parameter 5 has pegged
13165.4 0 118.3 19.37 0.9431 9.500
0.000 114.2 19.21 9.500
Fit parameter 5 has pegged
13165.3 0 118.3 19.37 0.9430 9.500
0.000 114.2 19.21 9.500
Fit parameter 5 has pegged
13165.2 0 118.3 19.37 0.9429 9.500
0.000 114.2 19.21 9.500
Fit parameter 5 has pegged
13165.2 0 118.3 19.37 0.9428 9.500
0.000 114.2 19.21 9.500
Fit parameter 5 has pegged
13165.1 0 118.3 19.37 0.9428 9.500
0.000 114.2 19.21 9.500
Fit parameter 5 has pegged
13164.9 0 118.3 19.37 0.9427 9.500
0.000 114.2 19.21 9.500
Fit parameter 5 has pegged
13164.8 0 118.3 19.37 0.9426 9.500
0.000 114.2 19.21 9.500
Fit parameter 5 has pegged
13164.7 0 118.3 19.37 0.9425 9.500
0.000 114.2 19.20 9.500
Fit parameter 5 has pegged
13164.6 0 118.3 19.37 0.9424 9.500
0.000 114.2 19.20 9.500
Fit parameter 5 has pegged
13164.5 0 118.3 19.37 0.9424 9.500
0.000 114.2 19.20 9.500
Fit parameter 5 has pegged
13164.5 0 118.3 19.37 0.9423 9.500
0.000 114.2 19.20 9.500
Fit parameter 5 has pegged
13164.4 0 118.3 19.37 0.9422 9.500
0.000 114.2 19.20 9.500
Fit parameter 5 has pegged
13164.3 0 118.3 19.37 0.9421 9.500
0.000 114.2 19.20 9.500
Fit parameter 5 has pegged
13164.3 0 118.3 19.37 0.9421 9.500
0.000 114.2 19.20 9.500
Fit parameter 5 has pegged
13164.2 0 118.3 19.37 0.9420 9.500
0.000 114.2 19.20 9.500
Fit parameter 5 has pegged
13164.1 0 118.3 19.37 0.9419 9.500
0.000 114.2 19.19 9.500
Fit parameter 5 has pegged
13164.1 0 118.3 19.37 0.9419 9.500
0.000 114.2 19.19 9.500
Fit parameter 5 has pegged
13164.0 0 118.3 19.37 0.9418 9.500
0.000 114.2 19.19 9.500
Fit parameter 5 has pegged
13164.0 0 118.3 19.37 0.9418 9.500
0.000 114.2 19.19 9.500
Fit parameter 5 has pegged
13163.9 0 118.3 19.37 0.9417 9.500
0.000 114.2 19.19 9.500
Fit parameter 5 has pegged
13163.8 0 118.4 19.37 0.9416 9.500
0.000 114.2 19.19 9.500
Fit parameter 5 has pegged
13163.8 0 118.4 19.37 0.9416 9.500
0.000 114.2 19.19 9.500
13163.7 0 118.4 19.37 0.9415 9.500
0.000 114.2 19.19 9.500
Fit parameter 5 has pegged
13163.6 0 118.4 19.37 0.9415 9.500
0.000 114.2 19.19 9.500
Fit parameter 5 has pegged
13163.6 4 118.4 19.37 0.9415 9.500
0.000 114.2 19.19 9.500
13163.6 0 118.4 19.37 0.9414 9.500
0.000 114.2 19.19 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.29E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.74E-02 | 0.41 0.01 0.00 -0.90 -0.12
2.19E-02 | -0.91 -0.06 0.01 -0.40 -0.08
3.15E+00 | -0.06 0.98 0.00 -0.04 0.19
8.32E-01 | -0.01 -0.20 0.00 -0.13 0.97
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.361 +/- 0.181238 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.74675 1
3 3 1 gaussian norm 0.941400 +/- 0.515279E-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 114.235 +/- 0.194273 2
7 7 3 gaussian Sigma keV 19.1878 +/- 0.950705 2
8 3 3 gaussian norm 0.941400 = 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 = 13163.58 using 198 PHA bins.
Reduced chi-squared = 69.28197 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 ( 66.820) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 66.820) > 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 0.7798 photons ( 1.5532E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7257 photons ( 1.4159E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:04 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.327 +/- 5.5110E-03
Net count rate (cts/s) for file 2 2.327 +/- 5.5110E-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 = 858542.4 using 168 PHA bins.
Reduced chi-squared = 5365.890 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 25771.74 using 168 PHA bins.
Reduced chi-squared = 161.0733 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
16842.5 -3 85.14 14.58 0.1391 1.124
0.6773 84.94 14.55 1.111
2755.69 -4 71.66 16.30 0.1857 0.9327
0.5231 70.71 16.23 0.9439
1632.49 -2 79.79 6.411 8.8169E-02 0.9678
0.6012 78.96 6.841 0.9682
883.364 -3 77.37 11.40 0.1376 1.025
0.7276 76.98 10.08 1.024
637.400 -4 76.67 9.776 0.1473 1.021
0.7286 76.44 9.824 1.023
621.107 -5 76.62 9.447 0.1521 1.024
0.7327 76.48 9.586 1.026
620.846 -6 76.57 9.561 0.1532 1.024
0.7325 76.47 9.673 1.026
620.815 -7 76.59 9.520 0.1528 1.024
0.7326 76.48 9.644 1.026
620.811 -8 76.59 9.535 0.1529 1.024
0.7326 76.47 9.654 1.026
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.19E-07 | 0.00 0.00 -0.36 0.61 -0.39 0.00 0.00 0.58
1.12E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.06E-06 | 0.00 0.01 -0.93 -0.23 0.16 0.00 0.01 -0.23
1.01E-03 | 0.04 0.01 -0.01 -0.31 -0.90 0.04 0.01 -0.29
2.94E-02 | -0.14 -0.71 0.00 0.00 0.00 0.13 0.68 0.00
6.33E-02 | 0.33 -0.60 -0.01 0.00 0.01 0.36 -0.63 0.00
4.26E-02 | 0.85 -0.05 0.00 0.00 0.01 -0.48 0.21 0.00
4.42E-02 | 0.39 0.36 0.00 0.02 0.04 0.79 0.31 0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.5852 +/- 0.211573 1
2 2 1 gaussian Sigma keV 9.53481 +/- 0.208763 1
3 3 1 gaussian norm 0.152948 +/- 0.300361E-02 1
4 4 2 powerlaw PhoIndex 1.02434 +/- 0.103751E-01 1
5 5 2 powerlaw norm 0.732567 +/- 0.304877E-01 1
6 6 3 gaussian LineE keV 76.4744 +/- 0.214633 2
7 7 3 gaussian Sigma keV 9.65428 +/- 0.212113 2
8 3 3 gaussian norm 0.152948 = par 3 2
9 8 4 powerlaw PhoIndex 1.02604 +/- 0.994732E-02 2
10 5 4 powerlaw norm 0.732567 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 620.8110 using 168 PHA bins.
Reduced chi-squared = 3.880069 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 ( 3.717) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.717) > 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 0.8977 photons ( 1.0692E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8923 photons ( 1.0624E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
104.8115
=====best line=====
76.5896 0.212070
=====best sigma=====
9.52490 0.209341
=====norm=====
0.152847 0.301188E-02
=====phoindx=====
1.02432 0.103838E-01
=====pow_norm=====
0.732597 0.305103E-01
=====best line=====
76.4751 0.214886
=====best sigma=====
9.64768 0.212474
=====norm=====
0.152847 par
=====phoindx=====
1.02602 0.995579E-02
=====pow_norm=====
0.732597 par
=====redu_chi=====
3.880074
=====area_flux=====
0.8977
=====area_flux_f=====
0.8923
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 10 1 640 2000 1225.4336 0 0.152847 0.301188E-02 9.52490 0.209341 1.02432 0.103838E-01 0.732597 0.305103E-01 0.8977 640 2000 1223.6016 0 0.152847 0.301188E-02 9.64768 0.212474 1.02602 0.995579E-02 0.732597 0.305103E-01 0.8923 3.880074 1
=====redu_chi=====
417.2572
=====best line=====
118.361 0.181238
=====best sigma=====
19.3655 1.74675
=====norm=====
0.941400 0.515279E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.235 0.194273
=====best sigma=====
19.1878 0.950705
=====norm=====
0.941400 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
69.28197
=====area_flux=====
0.7798
=====area_flux_f=====
0.7257
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 10 1 1600 3200 1893.776 0 0.941400 0.515279E-02 309.848 27.948 9.50000 -1.00000 0.00000 -1.00000 0.7798 1600 3200 1827.76 0 0.941400 0.515279E-02 307.0048 15.21128 9.50000 -1.00000 0.00000 -1.00000 0.7257 69.28197 1
=====redu_chi=====
161.0733
=====best line=====
76.5852 0.211573
=====best sigma=====
9.53481 0.208763
=====norm=====
0.152948 0.300361E-02
=====phoindx=====
1.02434 0.103751E-01
=====pow_norm=====
0.732567 0.304877E-01
=====best line=====
76.4744 0.214633
=====best sigma=====
9.65428 0.212113
=====norm=====
0.152948 par
=====phoindx=====
1.02604 0.994732E-02
=====pow_norm=====
0.732567 par
=====redu_chi=====
3.880069
=====area_flux=====
0.8977
=====area_flux_f=====
0.8923
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 10 1 640 2000 1225.3632 0 0.152948 0.300361E-02 9.53481 0.208763 1.02434 0.103751E-01 0.732567 0.304877E-01 0.8977 640 2000 1223.5904 0 0.152948 0.300361E-02 9.65428 0.212113 1.02604 0.994732E-02 0.732567 0.304877E-01 0.8923 3.880069 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:22:05 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.655 +/- 5.8862E-03
Net count rate (cts/s) for file 2 2.655 +/- 5.8862E-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 = 622067.3 using 168 PHA bins.
Reduced chi-squared = 3887.921 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17878.55 using 168 PHA bins.
Reduced chi-squared = 111.7409 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5258.04 -3 83.52 17.49 0.2324 1.006
0.5681 83.51 17.30 0.9944
2867.62 -3 70.22 19.20 0.3425 0.8916
0.3263 72.27 19.36 0.8946
2111.19 -2 73.07 7.986 7.4543E-02 0.8189
0.3820 75.69 4.921 0.8120
826.832 -3 68.29 9.422 0.1190 0.7966
0.3170 74.65 8.775 0.7952
635.273 -4 70.22 8.566 0.1414 0.7691
0.2763 73.25 9.904 0.7687
616.728 -5 69.57 9.092 0.1450 0.7613
0.2670 73.23 9.729 0.7597
616.128 -6 69.63 8.910 0.1438 0.7626
0.2687 73.25 9.697 0.7608
616.082 -7 69.60 8.955 0.1443 0.7619
0.2678 73.24 9.721 0.7601
616.077 -8 69.61 8.940 0.1441 0.7621
0.2681 73.24 9.711 0.7603
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.56E-07 | 0.00 0.00 -0.21 0.44 -0.77 0.00 0.00 0.42
9.56E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.27E-06 | 0.00 0.01 -0.98 -0.09 0.16 0.00 0.01 -0.10
2.51E-04 | 0.02 -0.01 0.01 -0.56 -0.62 0.02 -0.01 -0.54
3.45E-02 | -0.16 -0.80 0.00 0.00 0.00 0.04 0.58 0.00
8.45E-02 | 0.29 -0.51 -0.01 0.01 0.01 0.47 -0.66 0.01
4.70E-02 | -0.94 -0.01 0.00 -0.01 -0.01 0.16 -0.29 -0.01
5.52E-02 | -0.02 -0.32 0.00 -0.01 -0.01 -0.87 -0.38 -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 69.6056 +/- 0.223222 1
2 2 1 gaussian Sigma keV 8.93961 +/- 0.222923 1
3 3 1 gaussian norm 0.144091 +/- 0.327648E-02 1
4 4 2 powerlaw PhoIndex 0.762131 +/- 0.980699E-02 1
5 5 2 powerlaw norm 0.268103 +/- 0.109803E-01 1
6 6 3 gaussian LineE keV 73.2394 +/- 0.247628 2
7 7 3 gaussian Sigma keV 9.71070 +/- 0.245590 2
8 3 3 gaussian norm 0.144091 = par 3 2
9 8 4 powerlaw PhoIndex 0.760302 +/- 0.940009E-02 2
10 5 4 powerlaw norm 0.268103 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 616.0771 using 168 PHA bins.
Reduced chi-squared = 3.850482 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 ( 3.689) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.689) > 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 0.9777 photons ( 1.1745E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9843 photons ( 1.1910E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:22:05 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.432 +/- 9.1621E-03
Net count rate (cts/s) for file 2 6.432 +/- 9.1621E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.777 +/- 1.0890E-02( 58.7% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.777 +/- 1.0890E-02( 58.7% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.9570692E+07 using 198 PHA bins.
Reduced chi-squared = 103003.6 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 73199.30 using 198 PHA bins.
Reduced chi-squared = 385.2595 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
46569.6 -3 87.55 18.59 0.4277 2.598
7.6141E-02 104.6 18.78 2.549
45409.2 1 88.28 19.07 0.4370 1.499
0.2187 104.7 18.75 2.557
36438.7 0 94.41 19.32 0.5170 1.509
0.2086 106.0 18.37 3.095
18265.4 0 113.5 19.35 0.8297 1.575
0.1435 109.5 9.523 7.965
16420.3 0 113.2 19.02 0.8271 1.619
0.1123 109.6 9.893 9.253
11930.7 0 113.1 13.41 0.8526 1.780
2.3549E-02 109.8 17.12 9.472
7488.93 -1 111.3 16.96 1.033 2.030
2.0073E-02 110.8 16.28 9.499
7396.87 -1 111.3 18.24 1.050 6.167
5.8199E-03 110.8 16.59 9.500
7379.64 -1 111.4 18.58 1.039 8.445
2.8813E-03 110.9 16.50 9.500
7075.26 0 111.4 18.51 1.034 9.184
4.7163E-04 110.6 16.27 9.500
7037.43 0 111.5 18.50 1.032 9.496
1.1879E-04 110.6 16.20 9.500
6997.31 0 111.4 18.46 1.031 9.498
4.2392E-05 110.6 16.16 9.500
6968.03 0 111.4 18.43 1.030 9.500
4.6932E-06 110.6 16.13 9.500
6946.74 0 111.4 18.40 1.029 9.500
4.7278E-08 110.5 16.11 9.500
6930.83 0 111.3 18.37 1.029 9.500
1.1562E-08 110.5 16.08 9.500
6907.71 0 111.3 18.33 1.028 9.500
4.5581E-10 110.5 16.04 9.500
6892.19 0 111.3 18.29 1.026 9.500
2.6922E-11 110.5 16.00 9.500
6886.61 0 111.3 18.27 1.026 9.500
9.0019E-12 110.5 15.99 9.500
6882.31 0 111.3 18.26 1.025 9.500
1.1450E-13 110.5 15.97 9.500
6878.77 0 111.3 18.25 1.025 9.500
4.5540E-14 110.5 15.96 9.500
6875.85 0 111.3 18.23 1.025 9.500
1.1256E-14 110.5 15.95 9.500
Fit parameter 5 has pegged
6855.08 0 111.4 18.12 1.020 9.500
0.000 110.5 15.85 9.500
Fit parameter 5 has pegged
6820.96 -1 112.0 17.81 1.0000 9.500
0.000 111.0 15.61 9.500
Fit parameter 5 has pegged
6808.91 -2 112.4 17.75 0.9882 9.500
0.000 111.4 15.51 9.500
Fit parameter 5 has pegged
6807.98 -3 112.5 17.69 0.9845 9.500
0.000 111.5 15.47 9.500
Fit parameter 5 has pegged
6807.92 -4 112.5 17.70 0.9842 9.500
0.000 111.6 15.47 9.500
Fit parameter 5 has pegged
6807.90 -5 112.5 17.68 0.9835 9.500
0.000 111.6 15.46 9.500
Fit parameter 5 has pegged
6807.90 -6 112.5 17.70 0.9841 9.500
0.000 111.6 15.47 9.500
6807.88 1 112.5 17.70 0.9841 9.500
0.000 111.6 15.47 9.500
Fit parameter 5 has pegged
6807.85 1 112.5 17.70 0.9841 9.500
0.000 111.6 15.47 9.500
Fit parameter 5 has pegged
6807.84 0 112.5 17.70 0.9841 9.500
0.000 111.6 15.47 9.500
Fit parameter 5 has pegged
6807.83 0 112.5 17.70 0.9841 9.500
0.000 111.6 15.47 9.500
6807.83 3 112.5 17.70 0.9841 9.500
0.000 111.6 15.47 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.43E-05 | -0.01 0.01 -1.00 -0.01 0.03
3.59E-04 | 0.01 0.00 0.03 0.13 0.99
5.19E-03 | -0.48 -0.88 0.00 -0.01 0.00
5.10E-02 | 0.78 -0.43 -0.02 0.45 -0.07
1.94E-02 | 0.40 -0.22 0.01 -0.88 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 112.507 +/- 0.187502 1
2 2 1 gaussian Sigma keV 17.6981 +/- 0.120009 1
3 3 1 gaussian norm 0.984144 +/- 0.568847E-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 111.571 +/- 0.159841 2
7 7 3 gaussian Sigma keV 15.4691 +/- 0.282209E-01 2
8 3 3 gaussian norm 0.984144 = 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 = 6807.833 using 198 PHA bins.
Reduced chi-squared = 35.83070 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 ( 34.558) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 34.558) > 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 0.7480 photons ( 1.4351E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7604 photons ( 1.4329E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:05 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.655 +/- 5.8862E-03
Net count rate (cts/s) for file 2 2.655 +/- 5.8862E-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 = 754687.3 using 168 PHA bins.
Reduced chi-squared = 4716.796 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 29727.29 using 168 PHA bins.
Reduced chi-squared = 185.7955 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4113.65 -3 87.06 14.93 0.1158 0.8945
0.4762 86.32 14.63 0.8810
2911.43 -4 65.80 19.17 0.2854 0.9670
0.5405 67.56 18.89 0.9614
2078.24 0 69.47 18.93 0.2764 0.9649
0.5394 71.48 19.16 0.9613
1833.85 0 71.13 17.21 0.2718 0.9635
0.5388 73.49 17.77 0.9608
1771.96 0 71.64 16.86 0.2644 0.9620
0.5393 74.28 17.36 0.9598
1702.11 -1 72.65 11.21 0.2072 0.9495
0.5478 75.61 9.876 0.9474
881.507 -2 71.26 10.04 0.1489 0.8972
0.4727 74.61 10.33 0.8965
776.500 -2 70.48 9.724 0.1408 0.8662
0.4185 74.09 9.928 0.8655
697.552 -2 70.30 8.683 0.1399 0.8434
0.3810 73.88 9.467 0.8425
664.489 -2 69.96 8.938 0.1425 0.8255
0.3523 73.69 9.645 0.8245
658.379 -3 69.71 8.950 0.1436 0.7774
0.2823 73.36 9.703 0.7776
616.206 -4 69.60 8.959 0.1443 0.7617
0.2678 73.24 9.724 0.7604
616.077 -5 69.61 8.940 0.1441 0.7621
0.2681 73.24 9.711 0.7603
616.076 -6 69.60 8.944 0.1441 0.7621
0.2680 73.24 9.714 0.7602
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.56E-07 | 0.00 0.00 -0.21 0.44 -0.77 0.00 0.00 0.42
9.56E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.26E-06 | 0.00 0.01 -0.98 -0.09 0.16 0.00 0.01 -0.10
2.51E-04 | 0.02 -0.01 0.01 -0.56 -0.62 0.02 -0.01 -0.54
3.44E-02 | -0.16 -0.80 0.00 0.00 0.00 0.04 0.58 0.00
8.42E-02 | 0.29 -0.51 -0.01 0.01 0.01 0.47 -0.66 0.01
4.69E-02 | -0.94 -0.01 0.00 -0.01 -0.01 0.16 -0.29 -0.01
5.52E-02 | -0.02 -0.32 0.00 -0.01 -0.01 -0.87 -0.38 -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 69.6025 +/- 0.222887 1
2 2 1 gaussian Sigma keV 8.94435 +/- 0.222535 1
3 3 1 gaussian norm 0.144144 +/- 0.327036E-02 1
4 4 2 powerlaw PhoIndex 0.762054 +/- 0.980004E-02 1
5 5 2 powerlaw norm 0.268013 +/- 0.109818E-01 1
6 6 3 gaussian LineE keV 73.2381 +/- 0.247466 2
7 7 3 gaussian Sigma keV 9.71436 +/- 0.245344 2
8 3 3 gaussian norm 0.144144 = par 3 2
9 8 4 powerlaw PhoIndex 0.760237 +/- 0.939353E-02 2
10 5 4 powerlaw norm 0.268013 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 616.0764 using 168 PHA bins.
Reduced chi-squared = 3.850478 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 ( 3.689) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.689) > 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 0.9777 photons ( 1.1745E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9843 photons ( 1.1910E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
111.7409
=====best line=====
69.6056 0.223222
=====best sigma=====
8.93961 0.222923
=====norm=====
0.144091 0.327648E-02
=====phoindx=====
0.762131 0.980699E-02
=====pow_norm=====
0.268103 0.109803E-01
=====best line=====
73.2394 0.247628
=====best sigma=====
9.71070 0.245590
=====norm=====
0.144091 par
=====phoindx=====
0.760302 0.940009E-02
=====pow_norm=====
0.268103 par
=====redu_chi=====
3.850482
=====area_flux=====
0.9777
=====area_flux_f=====
0.9843
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 11 1 640 2000 1113.6896 0 0.144091 0.327648E-02 8.93961 0.222923 0.762131 0.980699E-02 0.268103 0.109803E-01 0.9777 640 2000 1171.8304 0 0.144091 0.327648E-02 9.71070 0.245590 0.760302 0.940009E-02 0.268103 0.109803E-01 0.9843 3.850482 1
=====redu_chi=====
385.2595
=====best line=====
112.507 0.187502
=====best sigma=====
17.6981 0.120009
=====norm=====
0.984144 0.568847E-02
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.571 0.159841
=====best sigma=====
15.4691 0.282209E-01
=====norm=====
0.984144 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
35.83070
=====area_flux=====
0.7480
=====area_flux_f=====
0.7604
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 11 1 1600 3200 1800.112 0 0.984144 0.568847E-02 283.1696 1.920144 9.50001 -1.00000 0.00000 -1.00000 0.7480 1600 3200 1785.136 0 0.984144 0.568847E-02 247.5056 0.4515344 9.50000 -1.00000 0.00000 -1.00000 0.7604 35.83070 1
=====redu_chi=====
185.7955
=====best line=====
69.6025 0.222887
=====best sigma=====
8.94435 0.222535
=====norm=====
0.144144 0.327036E-02
=====phoindx=====
0.762054 0.980004E-02
=====pow_norm=====
0.268013 0.109818E-01
=====best line=====
73.2381 0.247466
=====best sigma=====
9.71436 0.245344
=====norm=====
0.144144 par
=====phoindx=====
0.760237 0.939353E-02
=====pow_norm=====
0.268013 par
=====redu_chi=====
3.850478
=====area_flux=====
0.9777
=====area_flux_f=====
0.9843
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 11 1 640 2000 1113.64 0 0.144144 0.327036E-02 8.94435 0.222535 0.762054 0.980004E-02 0.268013 0.109818E-01 0.9777 640 2000 1171.8096 0 0.144144 0.327036E-02 9.71436 0.245344 0.760237 0.939353E-02 0.268013 0.109818E-01 0.9843 3.850478 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:22:05 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.443 +/- 5.6466E-03
Net count rate (cts/s) for file 2 2.443 +/- 5.6466E-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 = 608778.7 using 168 PHA bins.
Reduced chi-squared = 3804.867 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 10872.48 using 168 PHA bins.
Reduced chi-squared = 67.95300 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1979.15 -3 84.49 15.76 0.1719 0.8468
0.3709 84.69 15.22 0.8466
1491.41 -3 78.00 8.850 9.0087E-02 0.7499
0.2424 79.32 8.905 0.7538
1330.14 -4 78.46 12.97 0.1361 0.8185
0.3141 80.61 15.70 0.8168
1260.09 -5 80.05 8.993 7.6871E-02 0.7975
0.3246 81.31 6.524 0.7995
1223.91 -6 77.80 13.16 0.1273 0.8196
0.3346 80.89 14.61 0.8201
1117.69 -7 80.56 8.878 8.1928E-02 0.8045
0.3313 81.16 7.999 0.8058
875.307 -1 78.07 10.72 0.1211 0.8098
0.3242 80.65 12.46 0.8111
680.322 -2 79.08 9.785 0.1206 0.8112
0.3256 80.57 9.623 0.8122
668.662 -1 78.60 9.747 0.1311 0.8127
0.3238 80.49 10.96 0.8140
648.777 -2 78.60 9.716 0.1319 0.8145
0.3257 80.49 9.970 0.8156
648.243 0 78.59 9.728 0.1322 0.8145
0.3257 80.48 10.06 0.8157
647.837 -1 78.58 9.792 0.1335 0.8148
0.3257 80.47 10.21 0.8161
647.574 -2 78.60 9.802 0.1339 0.8164
0.3276 80.47 10.15 0.8176
647.262 -3 78.63 9.820 0.1344 0.8207
0.3333 80.50 10.20 0.8218
647.195 -4 78.64 9.822 0.1344 0.8222
0.3357 80.51 10.18 0.8235
647.184 -5 78.64 9.826 0.1345 0.8223
0.3359 80.51 10.19 0.8236
647.184 0 78.64 9.825 0.1345 0.8223
0.3359 80.51 10.19 0.8236
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.67E-07 | 0.00 0.00 -0.25 0.49 -0.69 0.00 0.00 0.47
1.00E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.07E-06 | 0.00 0.01 -0.97 -0.11 0.20 0.00 0.03 -0.12
3.36E-04 | 0.02 0.01 -0.02 -0.51 -0.70 0.02 0.06 -0.49
2.26E-03 | 0.00 0.07 -0.03 -0.03 -0.03 -0.01 -1.00 -0.03
7.47E-02 | -0.50 0.47 0.00 -0.01 -0.01 -0.73 0.05 -0.01
6.00E-02 | -0.82 -0.52 0.00 -0.01 -0.01 0.23 -0.04 -0.01
6.52E-02 | 0.27 -0.71 -0.01 -0.01 -0.01 -0.65 -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 78.6416 +/- 0.253078 1
2 2 1 gaussian Sigma keV 9.82547 +/- 0.255963 1
3 3 1 gaussian norm 0.134484 +/- 0.326129E-02 1
4 4 2 powerlaw PhoIndex 0.822299 +/- 0.102477E-01 1
5 5 2 powerlaw norm 0.335869 +/- 0.137602E-01 1
6 6 3 gaussian LineE keV 80.5112 +/- 0.264426 2
7 7 3 gaussian Sigma keV 10.1892 +/- 0.511712E-01 2
8 3 3 gaussian norm 0.134484 = par 3 2
9 8 4 powerlaw PhoIndex 0.823582 +/- 0.984031E-02 2
10 5 4 powerlaw norm 0.335869 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 647.1839 using 168 PHA bins.
Reduced chi-squared = 4.044899 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 ( 3.875) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.875) > 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 0.9420 photons ( 1.1455E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9376 photons ( 1.1440E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:22:05 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.807 +/- 8.7061E-03
Net count rate (cts/s) for file 2 5.807 +/- 8.7061E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.364 +/- 1.0377E-02( 57.9% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.364 +/- 1.0377E-02( 57.9% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 6550960. using 198 PHA bins.
Reduced chi-squared = 34478.74 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 93048.92 using 198 PHA bins.
Reduced chi-squared = 489.7312 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
50406.4 -3 118.7 19.29 0.4091 2.925
0.2786 114.0 19.24 2.891
34003.0 -2 107.9 19.35 1.488 9.223
0.1141 108.8 19.34 9.073
33657.9 -1 108.4 19.36 1.487 9.457
3.1071E-02 109.1 19.35 9.492
29483.6 0 109.7 19.36 1.385 9.491
1.5399E-02 110.4 19.36 9.496
26467.6 0 111.3 19.36 1.318 9.497
5.4044E-03 112.0 19.36 9.499
24125.6 0 112.9 19.37 1.271 9.499
1.2284E-03 113.6 19.36 9.500
22358.6 0 114.3 19.37 1.239 9.500
3.8728E-04 115.0 19.37 9.500
21036.4 0 115.6 19.37 1.215 9.500
1.0945E-04 116.3 19.37 9.500
20075.8 0 116.7 19.37 1.196 9.500
2.8562E-05 117.3 19.37 9.500
19385.9 0 117.6 19.37 1.181 9.500
5.3615E-06 118.1 19.37 9.500
18885.8 0 118.4 19.37 1.169 9.500
2.2459E-06 118.8 19.37 9.500
18251.7 0 119.5 19.37 1.150 9.500
8.2483E-09 119.6 19.37 9.500
17914.3 0 120.3 19.37 1.139 9.500
8.0743E-10 120.1 19.37 9.500
17812.6 0 120.5 19.37 1.135 9.500
1.5554E-10 120.3 19.37 9.500
17729.7 0 120.8 19.37 1.131 9.500
7.2484E-11 120.4 19.37 9.500
17671.6 0 120.9 19.37 1.129 9.500
3.0539E-11 120.5 19.37 9.500
17624.8 0 121.1 19.37 1.127 9.500
9.4151E-12 120.6 19.37 9.500
17589.7 0 121.2 19.37 1.125 9.500
4.0843E-12 120.6 19.37 9.500
17564.4 0 121.3 19.37 1.124 9.500
1.3939E-12 120.7 19.37 9.500
17540.4 0 121.3 19.37 1.123 9.500
4.7565E-14 120.7 19.37 9.500
Fit parameter 5 has pegged
17488.7 0 121.4 19.37 1.118 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
17471.6 0 121.5 19.37 1.116 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
17466.0 0 121.5 19.37 1.116 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
17460.9 0 121.5 19.37 1.115 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
17455.7 0 121.5 19.37 1.115 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
17452.0 0 121.6 19.37 1.115 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
17448.0 0 121.6 19.37 1.114 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
17446.9 0 121.6 19.37 1.114 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
17442.8 0 121.6 19.37 1.114 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
17440.2 0 121.6 19.37 1.114 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
17437.4 0 121.6 19.37 1.114 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
17435.2 0 121.6 19.37 1.114 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
17384.6 0 121.7 19.37 1.109 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
17339.5 0 121.8 19.37 1.105 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
17298.8 0 121.8 19.37 1.101 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
17262.2 0 121.9 19.37 1.098 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
17229.4 0 122.0 19.37 1.094 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
17199.6 0 122.0 19.37 1.091 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
17172.6 0 122.1 19.37 1.088 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
17148.2 0 122.2 19.37 1.086 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
17125.9 0 122.2 19.37 1.083 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
17105.6 0 122.3 19.37 1.081 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
17087.1 0 122.4 19.37 1.079 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
17070.2 0 122.4 19.37 1.077 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
17054.8 0 122.5 19.37 1.075 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
17040.6 0 122.5 19.37 1.073 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
17027.7 0 122.6 19.37 1.072 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
17015.6 0 122.7 19.37 1.070 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
17004.6 0 122.7 19.37 1.069 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
16994.4 0 122.8 19.37 1.067 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
16985.0 0 122.8 19.37 1.066 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
16976.4 0 122.9 19.37 1.065 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
16968.5 0 122.9 19.37 1.064 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
16961.1 0 122.9 19.37 1.063 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
16954.3 0 123.0 19.37 1.062 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
16948.0 0 123.0 19.37 1.061 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
16942.2 0 123.1 19.37 1.060 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
16936.8 0 123.1 19.37 1.059 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
16931.8 0 123.1 19.37 1.059 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
16927.1 0 123.2 19.37 1.058 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
16922.8 0 123.2 19.37 1.057 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
16918.8 0 123.2 19.37 1.057 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
16915.1 0 123.3 19.37 1.056 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
16911.6 0 123.3 19.37 1.055 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
16908.4 0 123.3 19.37 1.055 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
16905.3 0 123.4 19.37 1.054 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
16902.5 0 123.4 19.37 1.054 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
16899.9 0 123.4 19.37 1.053 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
16897.5 0 123.5 19.37 1.053 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
16895.2 0 123.5 19.37 1.052 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
16893.1 0 123.5 19.37 1.052 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
16891.1 0 123.5 19.37 1.052 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
16889.2 0 123.5 19.37 1.051 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
16887.4 0 123.6 19.37 1.051 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16885.8 0 123.6 19.37 1.051 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16884.3 0 123.6 19.37 1.050 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16882.9 0 123.6 19.37 1.050 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16881.6 0 123.6 19.37 1.050 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16880.3 0 123.7 19.37 1.049 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16879.1 0 123.7 19.37 1.049 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16878.0 0 123.7 19.37 1.049 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16877.0 0 123.7 19.37 1.049 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16876.0 0 123.7 19.37 1.048 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16875.0 0 123.7 19.37 1.048 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16874.1 0 123.8 19.37 1.048 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16873.3 0 123.8 19.37 1.048 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16872.6 0 123.8 19.37 1.048 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
16871.8 0 123.8 19.37 1.047 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16871.1 0 123.8 19.37 1.047 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16870.5 0 123.8 19.37 1.047 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16869.8 0 123.8 19.37 1.047 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16869.3 0 123.8 19.37 1.047 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16868.7 0 123.8 19.37 1.047 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16868.2 0 123.9 19.37 1.047 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16867.7 0 123.9 19.37 1.046 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16867.2 0 123.9 19.37 1.046 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16866.8 0 123.9 19.37 1.046 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16866.4 0 123.9 19.37 1.046 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16865.9 0 123.9 19.37 1.046 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16865.6 0 123.9 19.37 1.046 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16865.3 0 123.9 19.37 1.046 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16864.9 0 123.9 19.37 1.046 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16864.6 0 123.9 19.37 1.046 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16864.3 0 123.9 19.37 1.046 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16864.0 0 123.9 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16863.7 0 123.9 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16863.6 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16863.3 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16863.1 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16862.9 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16862.7 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16862.4 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16862.3 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16862.1 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16861.9 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16861.7 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16861.6 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16861.4 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16861.3 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16861.2 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16861.0 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16860.9 0 124.0 19.37 1.045 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16860.8 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16860.6 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16860.5 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16860.4 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16860.3 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16860.2 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16860.2 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16860.1 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16860.0 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.9 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.9 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
16859.7 0 124.0 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.6 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.6 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.5 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.5 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.4 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.3 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.3 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.2 1 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.2 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.1 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.0 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16859.0 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
16858.9 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16858.8 1 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16858.8 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16858.7 1 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
16858.7 0 124.1 19.37 1.044 9.500
0.000 122.0 19.37 9.500
16858.6 0 124.1 19.37 1.044 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16858.5 0 124.1 19.37 1.044 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16858.5 0 124.1 19.37 1.044 9.500
0.000 122.1 19.37 9.500
16858.3 1 124.1 19.37 1.044 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16858.3 0 124.1 19.37 1.044 9.500
0.000 122.1 19.37 9.500
16858.2 1 124.1 19.37 1.044 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16858.1 0 124.1 19.37 1.044 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16858.0 1 124.1 19.37 1.044 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16858.0 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16857.9 0 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16857.8 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16857.7 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16857.7 0 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
16857.5 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16857.5 0 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16857.4 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16857.3 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16857.2 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16857.1 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16857.1 0 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
16856.9 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16856.9 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16856.7 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16856.7 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
16856.5 1 124.1 19.37 1.043 9.500
0.000 122.1 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.33E-05 | 0.00 0.00 -1.00 -0.01 0.00
1.92E-02 | -0.98 -0.03 0.01 -0.21 -0.02
1.61E-02 | -0.21 0.00 0.00 0.98 0.05
3.93E+00 | -0.03 0.94 0.00 -0.03 0.33
2.00E+00 | 0.00 -0.33 0.00 -0.05 0.94
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 124.108 +/- 0.149505 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.92766 1
3 3 1 gaussian norm 1.04262 +/- 0.469437E-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 122.067 +/- 0.154588 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.48314 2
8 3 3 gaussian norm 1.04262 = 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 = 16856.53 using 198 PHA bins.
Reduced chi-squared = 88.71858 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 ( 85.566) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 85.566) > 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 0.9313 photons ( 1.9114E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9098 photons ( 1.8468E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:06 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.443 +/- 5.6466E-03
Net count rate (cts/s) for file 2 2.443 +/- 5.6466E-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 = 697973.3 using 168 PHA bins.
Reduced chi-squared = 4362.333 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 19010.78 using 168 PHA bins.
Reduced chi-squared = 118.8174 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2689.26 -3 86.49 13.27 0.1306 0.8406
0.3889 86.67 12.23 0.8389
1136.69 -4 76.50 13.47 0.1315 0.7881
0.2811 78.65 11.69 0.7912
1040.15 -5 81.41 9.213 0.1089 0.8483
0.3675 81.58 9.695 0.8461
911.849 -1 78.77 13.19 0.1323 0.8446
0.3695 80.65 11.66 0.8454
709.635 -2 79.90 9.447 0.1189 0.8378
0.3657 80.90 9.786 0.8391
690.054 -1 78.74 10.28 0.1329 0.8392
0.3620 80.65 11.28 0.8405
653.246 -2 78.87 9.927 0.1314 0.8352
0.3564 80.67 9.943 0.8366
651.449 0 78.82 9.825 0.1324 0.8354
0.3561 80.65 10.28 0.8366
649.032 -1 78.73 9.856 0.1348 0.8354
0.3551 80.60 10.19 0.8367
648.315 -2 78.71 9.870 0.1354 0.8328
0.3510 80.58 10.24 0.8342
647.337 -3 78.67 9.833 0.1347 0.8251
0.3401 80.53 10.18 0.8267
647.195 -4 78.64 9.829 0.1345 0.8224
0.3361 80.51 10.19 0.8238
647.187 -5 78.64 9.824 0.1345 0.8223
0.3359 80.51 10.19 0.8236
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.68E-07 | 0.00 0.00 -0.25 0.49 -0.69 0.00 0.00 0.47
1.00E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.07E-06 | 0.00 0.01 -0.97 -0.11 0.20 0.00 0.03 -0.12
3.36E-04 | 0.02 0.01 -0.02 -0.51 -0.70 0.02 0.06 -0.49
2.25E-03 | 0.00 0.07 -0.03 -0.03 -0.03 -0.01 -1.00 -0.03
7.47E-02 | -0.50 0.47 0.00 -0.01 -0.01 -0.72 0.05 -0.01
6.00E-02 | -0.82 -0.52 0.00 -0.01 -0.01 0.23 -0.04 -0.01
6.52E-02 | 0.27 -0.71 -0.01 -0.01 -0.01 -0.65 -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 78.6429 +/- 0.253148 1
2 2 1 gaussian Sigma keV 9.82362 +/- 0.256041 1
3 3 1 gaussian norm 0.134457 +/- 0.326223E-02 1
4 4 2 powerlaw PhoIndex 0.822283 +/- 0.102471E-01 1
5 5 2 powerlaw norm 0.335869 +/- 0.137689E-01 1
6 6 3 gaussian LineE keV 80.5117 +/- 0.264407 2
7 7 3 gaussian Sigma keV 10.1854 +/- 0.510592E-01 2
8 3 3 gaussian norm 0.134457 = par 3 2
9 8 4 powerlaw PhoIndex 0.823575 +/- 0.983994E-02 2
10 5 4 powerlaw norm 0.335869 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 647.1868 using 168 PHA bins.
Reduced chi-squared = 4.044917 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 ( 3.875) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.875) > 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 0.9421 photons ( 1.1455E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9376 photons ( 1.1440E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
67.95300
=====best line=====
78.6416 0.253078
=====best sigma=====
9.82547 0.255963
=====norm=====
0.134484 0.326129E-02
=====phoindx=====
0.822299 0.102477E-01
=====pow_norm=====
0.335869 0.137602E-01
=====best line=====
80.5112 0.264426
=====best sigma=====
10.1892 0.511712E-01
=====norm=====
0.134484 par
=====phoindx=====
0.823582 0.984031E-02
=====pow_norm=====
0.335869 par
=====redu_chi=====
4.044899
=====area_flux=====
0.9420
=====area_flux_f=====
0.9376
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 12 1 640 2000 1258.2656 0 0.134484 0.326129E-02 9.82547 0.255963 0.822299 0.102477E-01 0.335869 0.137602E-01 0.9420 640 2000 1288.1792 0 0.134484 0.326129E-02 10.1892 0.511712E-01 0.823582 0.984031E-02 0.335869 0.137602E-01 0.9376 4.044899 1
=====redu_chi=====
489.7312
=====best line=====
124.108 0.149505
=====best sigma=====
19.3655 1.92766
=====norm=====
1.04262 0.469437E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
122.067 0.154588
=====best sigma=====
19.3655 1.48314
=====norm=====
1.04262 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
88.71858
=====area_flux=====
0.9313
=====area_flux_f=====
0.9098
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 12 1 1600 3200 1985.728 0 1.04262 0.469437E-02 309.848 30.84256 9.50000 -1.00000 0.00000 -1.00000 0.9313 1600 3200 1953.072 0 1.04262 0.469437E-02 309.848 23.73024 9.50000 -1.00000 0.00000 -1.00000 0.9098 88.71858 1
=====redu_chi=====
118.8174
=====best line=====
78.6429 0.253148
=====best sigma=====
9.82362 0.256041
=====norm=====
0.134457 0.326223E-02
=====phoindx=====
0.822283 0.102471E-01
=====pow_norm=====
0.335869 0.137689E-01
=====best line=====
80.5117 0.264407
=====best sigma=====
10.1854 0.510592E-01
=====norm=====
0.134457 par
=====phoindx=====
0.823575 0.983994E-02
=====pow_norm=====
0.335869 par
=====redu_chi=====
4.044917
=====area_flux=====
0.9421
=====area_flux_f=====
0.9376
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 12 1 640 2000 1258.2864 0 0.134457 0.326223E-02 9.82362 0.256041 0.822283 0.102471E-01 0.335869 0.137689E-01 0.9421 640 2000 1288.1872 0 0.134457 0.326223E-02 10.1854 0.510592E-01 0.823575 0.983994E-02 0.335869 0.137689E-01 0.9376 4.044917 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:22:06 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.391 +/- 6.6527E-03
Net count rate (cts/s) for file 2 3.391 +/- 6.6527E-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 = 265986.5 using 168 PHA bins.
Reduced chi-squared = 1662.416 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 9594.094 using 168 PHA bins.
Reduced chi-squared = 59.96309 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2101.40 -3 86.79 13.27 0.1914 0.7911
0.4360 87.76 12.60 0.7906
1051.25 -4 82.76 9.500 0.1406 0.7447
0.3460 85.27 9.625 0.7464
1036.61 -4 83.58 9.690 0.1809 0.8036
0.4242 85.94 12.54 0.8013
807.030 -5 83.48 9.346 0.1716 0.7981
0.4307 85.98 9.771 0.7976
803.808 0 83.45 9.409 0.1734 0.7982
0.4304 85.93 9.863 0.7979
801.919 0 83.43 9.456 0.1748 0.7983
0.4302 85.90 9.928 0.7981
800.774 0 83.42 9.493 0.1759 0.7984
0.4300 85.88 9.977 0.7982
799.358 -1 83.40 9.626 0.1793 0.7989
0.4296 85.84 10.22 0.7988
798.658 -2 83.42 9.641 0.1803 0.8005
0.4319 85.84 10.12 0.8003
798.171 -3 83.45 9.678 0.1814 0.8054
0.4403 85.86 10.21 0.8050
798.024 -4 83.46 9.682 0.1817 0.8074
0.4443 85.87 10.18 0.8072
798.003 -5 83.46 9.687 0.1818 0.8076
0.4448 85.88 10.20 0.8074
798.003 1 83.46 9.687 0.1818 0.8076
0.4448 85.88 10.20 0.8074
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.29E-07 | 0.00 0.00 -0.20 0.56 -0.59 0.00 0.00 0.54
7.04E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.51E-06 | 0.00 0.01 -0.98 -0.09 0.16 0.00 0.04 -0.09
3.57E-04 | 0.02 0.02 -0.04 -0.44 -0.78 0.02 0.13 -0.42
1.71E-03 | -0.01 -0.08 0.04 0.06 0.10 0.01 0.99 0.06
4.34E-02 | 0.92 0.23 0.00 0.01 0.01 -0.32 0.02 0.01
5.13E-02 | -0.36 0.16 0.00 -0.01 -0.02 -0.92 0.02 -0.01
4.98E-02 | -0.16 0.96 0.01 0.01 0.02 0.23 0.08 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 83.4647 +/- 0.211095 1
2 2 1 gaussian Sigma keV 9.68674 +/- 0.221591 1
3 3 1 gaussian norm 0.181762 +/- 0.402201E-02 1
4 4 2 powerlaw PhoIndex 0.807568 +/- 0.958205E-02 1
5 5 2 powerlaw norm 0.444752 +/- 0.167202E-01 1
6 6 3 gaussian LineE keV 85.8750 +/- 0.224554 2
7 7 3 gaussian Sigma keV 10.1950 +/- 0.447388E-01 2
8 3 3 gaussian norm 0.181762 = par 3 2
9 8 4 powerlaw PhoIndex 0.807405 +/- 0.920404E-02 2
10 5 4 powerlaw norm 0.444752 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 798.0035 using 168 PHA bins.
Reduced chi-squared = 4.987522 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 ( 4.778) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.778) > 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 1.321 photons ( 1.6215E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.321 photons ( 1.6295E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:22:06 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.715 +/- 1.0035E-02
Net count rate (cts/s) for file 2 7.715 +/- 1.0035E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.325 +/- 1.2040E-02( 56.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.325 +/- 1.2040E-02( 56.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 4264448. using 198 PHA bins.
Reduced chi-squared = 22444.46 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 116089.0 using 198 PHA bins.
Reduced chi-squared = 610.9947 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
62579.0 -3 114.0 19.19 0.5730 2.840
0.4026 116.4 19.03 2.830
44063.4 -4 110.6 19.29 1.916 7.823
2736. 113.1 19.34 8.532
40496.6 -1 111.7 19.35 1.856 9.406
1128. 113.8 19.36 9.416
38847.5 0 112.0 19.36 1.821 9.485
540.2 114.1 19.36 9.470
33445.5 0 113.7 19.36 1.706 9.498
254.6 115.7 19.36 9.496
29757.8 0 115.4 19.37 1.634 3.298
100.9 117.2 19.37 9.499
28959.6 0 115.8 19.37 1.617 2.973
228.9 117.6 19.37 9.499
26543.5 0 117.3 19.37 1.571 2.884
335.1 119.0 19.37 9.500
24900.6 0 118.6 19.37 1.540 2.884
340.8 120.2 19.37 9.500
23761.8 0 119.6 19.37 1.517 2.894
330.8 121.2 19.37 9.500
23003.6 0 120.5 19.37 1.500 2.900
332.3 121.9 19.37 9.500
22479.9 0 121.1 19.37 1.487 2.910
332.9 122.5 19.37 9.500
22124.0 0 121.7 19.37 1.477 2.919
333.0 122.9 19.37 9.500
21878.9 0 122.1 19.37 1.470 2.934
325.5 123.2 19.37 9.500
21712.7 0 122.4 19.37 1.464 2.944
327.6 123.5 19.37 9.500
21589.1 0 122.7 19.37 1.460 2.952
340.1 123.6 19.37 9.500
21498.3 0 122.9 19.37 1.456 2.965
328.8 123.8 19.37 9.500
21429.8 0 123.1 19.37 1.453 2.971
349.7 123.9 19.37 9.500
21384.0 0 123.2 19.37 1.451 2.988
353.1 124.0 19.37 9.500
21357.4 0 123.3 19.37 1.450 2.993
370.1 124.0 19.37 9.500
21327.1 0 123.4 19.37 1.449 3.000
391.7 124.0 19.37 9.500
21304.7 0 123.4 19.37 1.447 3.011
395.7 124.1 19.37 9.500
21283.5 0 123.5 19.37 1.446 3.021
409.3 124.1 19.37 9.500
21275.2 0 123.5 19.37 1.446 3.025
420.8 124.1 19.37 9.500
21269.1 0 123.5 19.37 1.446 3.032
430.8 124.1 19.37 9.500
21259.5 0 123.5 19.37 1.446 3.039
481.0 124.2 19.37 9.500
21257.7 0 123.6 19.37 1.445 3.050
501.9 124.2 19.37 9.500
21182.6 0 123.6 19.37 1.439 3.044
516.6 124.2 19.37 9.500
21116.0 0 123.7 19.37 1.433 3.038
532.9 124.2 19.37 9.500
21057.1 0 123.8 19.37 1.427 3.034
547.7 124.3 19.37 9.500
21004.8 0 123.8 19.37 1.422 3.030
560.8 124.3 19.37 9.500
20958.3 0 123.9 19.37 1.417 3.027
571.0 124.4 19.37 9.500
20916.9 0 123.9 19.37 1.413 3.024
581.5 124.4 19.37 9.500
20846.3 0 124.1 19.37 1.404 3.020
604.3 124.5 19.37 9.500
20816.7 0 124.1 19.37 1.401 3.018
611.6 124.5 19.37 9.500
20790.1 0 124.2 19.37 1.397 3.016
618.1 124.6 19.37 9.500
20766.0 0 124.2 19.37 1.394 3.015
625.5 124.6 19.37 9.500
20744.2 0 124.3 19.37 1.391 3.014
633.0 124.6 19.37 9.500
20724.8 0 124.3 19.37 1.389 3.013
640.6 124.7 19.37 9.500
20707.1 0 124.4 19.37 1.386 3.012
644.7 124.7 19.37 9.500
20691.2 0 124.4 19.37 1.384 3.011
650.1 124.7 19.37 9.500
20676.5 0 124.5 19.37 1.382 3.010
656.5 124.7 19.37 9.500
20663.1 0 124.5 19.37 1.380 3.010
663.2 124.8 19.37 9.500
20651.3 0 124.6 19.37 1.378 3.010
666.3 124.8 19.37 9.500
20640.3 0 124.6 19.37 1.376 3.009
671.1 124.8 19.37 9.500
20630.5 0 124.6 19.37 1.374 3.009
673.4 124.8 19.37 9.500
20621.3 0 124.7 19.37 1.373 3.009
677.9 124.9 19.37 9.500
20613.0 0 124.7 19.37 1.371 3.009
681.9 124.9 19.37 9.500
20605.3 0 124.8 19.37 1.370 3.009
684.7 124.9 19.37 9.500
20598.4 0 124.8 19.37 1.369 3.008
689.4 124.9 19.37 9.500
20591.9 0 124.8 19.37 1.368 3.009
693.2 125.0 19.37 9.500
20586.0 0 124.9 19.37 1.367 3.009
697.9 125.0 19.37 9.500
20580.6 0 124.9 19.37 1.366 3.009
701.2 125.0 19.37 9.500
20575.5 0 124.9 19.37 1.365 3.009
706.5 125.0 19.37 9.500
20570.9 0 124.9 19.37 1.364 3.010
708.5 125.0 19.37 9.500
20566.8 0 125.0 19.37 1.363 3.010
710.0 125.0 19.37 9.500
20562.9 0 125.0 19.37 1.362 3.010
712.1 125.0 19.37 9.500
20559.2 0 125.0 19.37 1.361 3.011
716.4 125.1 19.37 9.500
20555.9 0 125.0 19.37 1.361 3.011
718.3 125.1 19.37 9.500
20552.7 0 125.1 19.37 1.360 3.012
721.5 125.1 19.37 9.500
20549.9 0 125.1 19.37 1.359 3.012
723.0 125.1 19.37 9.500
20547.2 0 125.1 19.37 1.359 3.012
724.1 125.1 19.37 9.500
20544.8 0 125.1 19.37 1.358 3.013
727.3 125.1 19.37 9.500
20542.5 0 125.1 19.37 1.358 3.013
730.2 125.1 19.37 9.500
20540.3 0 125.2 19.37 1.357 3.013
733.3 125.1 19.37 9.500
20538.4 0 125.2 19.37 1.357 3.014
735.9 125.2 19.37 9.500
20536.6 0 125.2 19.37 1.356 3.014
739.6 125.2 19.37 9.500
20534.7 0 125.2 19.37 1.356 3.015
743.7 125.2 19.37 9.500
20533.1 0 125.2 19.37 1.355 3.016
747.5 125.2 19.37 9.500
20531.5 0 125.3 19.37 1.355 3.016
749.4 125.2 19.37 9.500
20530.2 0 125.3 19.37 1.355 3.017
751.7 125.2 19.37 9.500
20528.9 0 125.3 19.37 1.354 3.018
755.1 125.2 19.37 9.500
20527.6 0 125.3 19.37 1.354 3.018
757.5 125.2 19.37 9.500
20526.5 0 125.3 19.37 1.354 3.019
759.3 125.2 19.37 9.500
20525.3 0 125.3 19.37 1.353 3.019
765.0 125.2 19.37 9.500
20524.2 0 125.3 19.37 1.353 3.020
767.9 125.2 19.37 9.500
20523.4 0 125.3 19.37 1.353 3.021
767.9 125.2 19.37 9.500
20522.5 0 125.4 19.37 1.353 3.021
770.4 125.2 19.37 9.500
20521.7 0 125.4 19.37 1.352 3.022
773.4 125.2 19.37 9.500
20520.8 0 125.4 19.37 1.352 3.022
776.5 125.2 19.37 9.500
20520.0 0 125.4 19.37 1.352 3.023
781.9 125.2 19.37 9.500
20519.3 0 125.4 19.37 1.352 3.024
786.2 125.2 19.37 9.500
20518.6 0 125.4 19.37 1.352 3.024
789.4 125.3 19.37 9.500
20517.9 0 125.4 19.37 1.352 3.025
792.4 125.3 19.37 9.500
20517.3 0 125.4 19.37 1.351 3.026
797.1 125.3 19.37 9.500
20516.8 0 125.4 19.37 1.351 3.026
798.9 125.3 19.37 9.500
20516.2 0 125.4 19.37 1.351 3.027
803.1 125.3 19.37 9.500
20515.8 0 125.4 19.37 1.351 3.028
804.5 125.3 19.37 9.500
20515.2 0 125.4 19.37 1.351 3.029
807.6 125.3 19.37 9.500
20514.8 0 125.4 19.37 1.351 3.029
810.1 125.3 19.37 9.500
20514.4 0 125.5 19.37 1.351 3.030
811.8 125.3 19.37 9.500
20514.0 0 125.5 19.37 1.350 3.031
813.7 125.3 19.37 9.500
20513.6 0 125.5 19.37 1.350 3.031
816.3 125.3 19.37 9.500
20513.2 0 125.5 19.37 1.350 3.032
819.5 125.3 19.37 9.500
20512.9 0 125.5 19.37 1.350 3.033
821.3 125.3 19.37 9.500
20512.6 0 125.5 19.37 1.350 3.033
823.0 125.3 19.37 9.500
20512.3 0 125.5 19.37 1.350 3.034
824.7 125.3 19.37 9.500
20512.1 0 125.5 19.37 1.350 3.034
824.3 125.3 19.37 9.500
20511.8 0 125.5 19.37 1.350 3.035
828.2 125.3 19.37 9.500
20511.4 0 125.5 19.37 1.350 3.035
834.3 125.3 19.37 9.500
20511.2 0 125.5 19.37 1.350 3.036
835.1 125.3 19.37 9.500
20511.0 0 125.5 19.37 1.350 3.037
836.0 125.3 19.37 9.500
20510.9 0 125.5 19.37 1.350 3.037
836.5 125.3 19.37 9.500
20510.6 0 125.5 19.37 1.350 3.038
838.7 125.3 19.37 9.500
20510.4 0 125.5 19.37 1.349 3.038
841.4 125.3 19.37 9.500
20510.2 0 125.5 19.37 1.349 3.038
843.0 125.3 19.37 9.500
20510.1 0 125.5 19.37 1.349 3.039
843.2 125.3 19.37 9.500
20510.0 0 125.5 19.37 1.349 3.039
845.2 125.3 19.37 9.500
20509.7 0 125.5 19.37 1.349 3.040
849.2 125.3 19.37 9.500
20509.4 0 125.5 19.37 1.349 3.040
854.2 125.3 19.37 9.500
20509.2 0 125.5 19.37 1.349 3.041
859.6 125.3 19.37 9.500
20508.9 0 125.5 19.37 1.349 3.041
864.7 125.3 19.37 9.500
20508.7 0 125.5 19.37 1.349 3.042
868.8 125.3 19.37 9.500
20508.5 0 125.5 19.37 1.349 3.043
871.3 125.3 19.37 9.500
20508.2 0 125.5 19.37 1.349 3.044
875.4 125.3 19.37 9.500
20508.2 0 125.5 19.37 1.349 3.044
875.0 125.3 19.37 9.500
20508.0 0 125.5 19.37 1.349 3.045
879.3 125.3 19.37 9.500
20507.8 0 125.6 19.37 1.349 3.046
883.1 125.3 19.37 9.500
20507.5 0 125.6 19.37 1.349 3.047
887.9 125.3 19.37 9.500
20507.5 0 125.6 19.37 1.349 3.047
889.5 125.3 19.37 9.500
20507.2 0 125.6 19.37 1.349 3.048
895.1 125.3 19.37 9.500
20507.2 0 125.6 19.37 1.349 3.049
896.4 125.3 19.37 9.500
20507.0 0 125.6 19.37 1.349 3.049
898.9 125.3 19.37 9.500
20507.0 0 125.6 19.37 1.349 3.050
901.1 125.3 19.37 9.500
20506.7 0 125.6 19.37 1.349 3.051
905.3 125.3 19.37 9.500
20506.6 0 125.6 19.37 1.349 3.051
908.3 125.3 19.37 9.500
20506.5 0 125.6 19.37 1.349 3.052
910.4 125.3 19.37 9.500
20506.3 0 125.6 19.37 1.349 3.052
914.5 125.3 19.37 9.500
20506.3 0 125.6 19.37 1.349 3.053
916.9 125.3 19.37 9.500
20506.1 0 125.6 19.37 1.349 3.054
919.8 125.3 19.37 9.500
20506.1 0 125.6 19.37 1.349 3.055
920.6 125.3 19.37 9.500
20505.7 0 125.6 19.37 1.349 3.056
929.1 125.3 19.37 9.500
20505.7 0 125.6 19.37 1.348 3.056
929.4 125.3 19.37 9.500
20505.5 1 125.6 19.37 1.348 3.056
929.9 125.3 19.37 9.500
20505.4 0 125.6 19.37 1.348 3.057
932.8 125.3 19.37 9.500
20505.3 0 125.6 19.37 1.348 3.057
936.9 125.3 19.37 9.500
20505.2 0 125.6 19.37 1.348 3.058
938.9 125.3 19.37 9.500
20505.0 1 125.6 19.37 1.348 3.058
939.5 125.3 19.37 9.500
20505.0 0 125.6 19.37 1.348 3.058
942.8 125.3 19.37 9.500
20504.7 0 125.6 19.37 1.348 3.059
949.1 125.3 19.37 9.500
20504.6 1 125.6 19.37 1.348 3.059
949.6 125.3 19.37 9.500
20504.4 1 125.6 19.37 1.348 3.059
950.3 125.3 19.37 9.500
20504.3 0 125.6 19.37 1.348 3.059
953.6 125.3 19.37 9.500
20504.1 1 125.6 19.37 1.348 3.059
954.5 125.3 19.37 9.500
20504.0 0 125.6 19.37 1.348 3.060
959.2 125.3 19.37 9.500
20504.0 0 125.6 19.37 1.348 3.060
963.1 125.3 19.37 9.500
20503.8 1 125.6 19.37 1.348 3.060
963.8 125.3 19.37 9.500
20503.6 1 125.6 19.37 1.348 3.060
964.5 125.3 19.37 9.500
20503.5 0 125.6 19.37 1.348 3.061
970.3 125.3 19.37 9.500
20503.4 0 125.6 19.37 1.348 3.062
973.5 125.3 19.37 9.500
20503.3 0 125.6 19.37 1.348 3.063
978.2 125.3 19.37 9.500
20503.3 0 125.6 19.37 1.348 3.063
980.8 125.3 19.37 9.500
20503.1 1 125.6 19.37 1.348 3.063
981.4 125.3 19.37 9.500
20503.1 0 125.6 19.37 1.348 3.064
984.7 125.3 19.37 9.500
20502.9 1 125.6 19.37 1.348 3.064
989.5 125.3 19.37 9.500
20502.8 0 125.6 19.37 1.348 3.065
993.1 125.3 19.37 9.500
20502.7 1 125.6 19.37 1.348 3.065
993.9 125.3 19.37 9.500
20502.7 0 125.6 19.37 1.348 3.066
995.6 125.3 19.37 9.500
20502.4 1 125.6 19.37 1.348 3.066
996.3 125.3 19.37 9.500
20502.3 1 125.6 19.37 1.348 3.066
997.0 125.3 19.37 9.500
20502.1 1 125.6 19.37 1.347 3.066
997.8 125.3 19.37 9.500
20502.0 1 125.6 19.37 1.347 3.065
998.7 125.3 19.37 9.500
20501.9 1 125.6 19.37 1.347 3.065
999.4 125.3 19.37 9.500
20501.9 0 125.6 19.37 1.347 3.066
1002. 125.3 19.37 9.500
20501.7 1 125.6 19.37 1.347 3.067
1006. 125.3 19.37 9.500
20501.5 1 125.6 19.37 1.347 3.067
1006. 125.3 19.37 9.500
20501.4 1 125.6 19.37 1.347 3.067
1007. 125.3 19.37 9.500
20501.3 0 125.6 19.37 1.347 3.068
1011. 125.3 19.37 9.500
20501.2 1 125.6 19.37 1.347 3.068
1012. 125.3 19.37 9.500
20501.1 1 125.6 19.37 1.347 3.068
1012. 125.3 19.37 9.500
20500.9 1 125.6 19.37 1.347 3.068
1013. 125.3 19.37 9.500
20500.8 1 125.6 19.37 1.347 3.067
1014. 125.3 19.37 9.500
20500.6 1 125.6 19.37 1.347 3.067
1015. 125.3 19.37 9.500
20500.4 1 125.6 19.37 1.347 3.067
1016. 125.3 19.37 9.500
20500.3 1 125.6 19.37 1.347 3.067
1017. 125.3 19.37 9.500
20500.1 1 125.6 19.37 1.346 3.067
1018. 125.3 19.37 9.500
20500.1 0 125.6 19.37 1.347 3.068
1024. 125.3 19.37 9.500
20500.0 1 125.6 19.37 1.346 3.068
1025. 125.3 19.37 9.500
20499.8 1 125.6 19.37 1.346 3.068
1026. 125.3 19.37 9.500
20499.7 1 125.6 19.37 1.346 3.068
1026. 125.3 19.37 9.500
20499.6 1 125.6 19.37 1.346 3.068
1027. 125.4 19.37 9.500
20499.4 1 125.6 19.37 1.346 3.068
1028. 125.4 19.37 9.500
20499.3 1 125.6 19.37 1.346 3.068
1029. 125.4 19.37 9.500
20499.1 1 125.6 19.37 1.346 3.068
1029. 125.4 19.37 9.500
20499.0 1 125.6 19.37 1.346 3.068
1030. 125.4 19.37 9.500
20498.9 1 125.6 19.37 1.346 3.068
1032. 125.4 19.37 9.500
20498.7 1 125.6 19.37 1.346 3.068
1032. 125.4 19.37 9.500
20498.6 1 125.6 19.37 1.346 3.068
1033. 125.4 19.37 9.500
20498.5 1 125.6 19.37 1.346 3.068
1034. 125.4 19.37 9.500
20498.4 1 125.6 19.37 1.345 3.068
1034. 125.4 19.37 9.500
20498.2 1 125.6 19.37 1.345 3.068
1035. 125.4 19.37 9.500
20498.1 1 125.6 19.37 1.345 3.068
1036. 125.4 19.37 9.500
20498.0 1 125.6 19.37 1.345 3.068
1037. 125.4 19.37 9.500
20497.9 1 125.6 19.37 1.345 3.068
1037. 125.4 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
1.77E-05 | -0.01 0.00 -1.00 0.07 0.00 -0.01 0.00
2.37E-04 | 0.01 0.00 -0.07 -1.00 0.00 -0.01 0.00
1.54E-02 | -0.99 -0.02 0.01 -0.01 0.00 -0.13 -0.01
1.29E-02 | -0.13 0.00 -0.01 -0.01 0.00 0.99 0.05
1.70E+00 | 0.00 0.29 0.00 0.00 0.00 0.04 -0.96
3.91E+00 | 0.02 -0.96 0.00 0.00 0.00 0.02 -0.29
3.63E+06 | 0.00 0.00 0.00 0.00 1.00 0.00 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 125.625 +/- 0.138025 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.92973 1
3 3 1 gaussian norm 1.34514 +/- 0.616395E-02 1
4 4 2 powerlaw PhoIndex 3.06783 +/- 0.369703 1
5 5 2 powerlaw norm 1037.42 +/- 1904.59 1
6 6 3 gaussian LineE keV 125.360 +/- 0.134461 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.39299 2
8 3 3 gaussian norm 1.34514 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 1037.42 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 20497.86 using 198 PHA bins.
Reduced chi-squared = 107.8835 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 (104.050) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square (104.050) > 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 1.248 photons ( 2.5839E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.217 photons ( 2.5147E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:07 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.391 +/- 6.6527E-03
Net count rate (cts/s) for file 2 3.391 +/- 6.6527E-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 = 313571.7 using 168 PHA bins.
Reduced chi-squared = 1959.823 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18797.78 using 168 PHA bins.
Reduced chi-squared = 117.4861 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2196.13 -3 87.59 11.77 0.1973 0.8271
0.5099 88.46 11.06 0.8248
854.018 -4 83.20 10.62 0.1796 0.7980
0.4243 85.79 10.40 0.7992
806.160 -5 83.71 9.867 0.1761 0.8035
0.4385 85.90 9.992 0.8031
799.408 -6 83.48 9.678 0.1819 0.8079
0.4451 85.87 10.41 0.8077
798.067 -7 83.46 9.676 0.1814 0.8071
0.4441 85.88 10.15 0.8070
798.009 -8 83.46 9.691 0.1818 0.8076
0.4448 85.87 10.21 0.8075
798.006 -1 83.47 9.686 0.1818 0.8076
0.4449 85.88 10.19 0.8075
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.30E-07 | 0.00 0.00 -0.20 0.56 -0.59 0.00 0.00 0.54
7.05E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.52E-06 | 0.00 0.01 -0.98 -0.09 0.16 0.00 0.04 -0.09
3.56E-04 | 0.02 0.02 -0.04 -0.44 -0.78 0.02 0.14 -0.42
1.62E-03 | -0.01 -0.08 0.04 0.06 0.10 0.00 0.99 0.06
4.34E-02 | 0.92 0.23 0.00 0.01 0.01 -0.31 0.02 0.01
5.16E-02 | -0.35 0.13 0.00 -0.01 -0.02 -0.93 0.02 -0.01
4.98E-02 | -0.17 0.96 0.01 0.01 0.02 0.20 0.07 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 83.4661 +/- 0.211145 1
2 2 1 gaussian Sigma keV 9.68589 +/- 0.221705 1
3 3 1 gaussian norm 0.181773 +/- 0.402611E-02 1
4 4 2 powerlaw PhoIndex 0.807620 +/- 0.958686E-02 1
5 5 2 powerlaw norm 0.444862 +/- 0.167312E-01 1
6 6 3 gaussian LineE keV 85.8758 +/- 0.225085 2
7 7 3 gaussian Sigma keV 10.1892 +/- 0.434958E-01 2
8 3 3 gaussian norm 0.181773 = par 3 2
9 8 4 powerlaw PhoIndex 0.807465 +/- 0.920872E-02 2
10 5 4 powerlaw norm 0.444862 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 798.0065 using 168 PHA bins.
Reduced chi-squared = 4.987540 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 ( 4.778) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.778) > 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 1.321 photons ( 1.6216E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.321 photons ( 1.6295E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
59.96309
=====best line=====
83.4647 0.211095
=====best sigma=====
9.68674 0.221591
=====norm=====
0.181762 0.402201E-02
=====phoindx=====
0.807568 0.958205E-02
=====pow_norm=====
0.444752 0.167202E-01
=====best line=====
85.8750 0.224554
=====best sigma=====
10.1950 0.447388E-01
=====norm=====
0.181762 par
=====phoindx=====
0.807405 0.920404E-02
=====pow_norm=====
0.444752 par
=====redu_chi=====
4.987522
=====area_flux=====
1.321
=====area_flux_f=====
1.321
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 13 1 640 2000 1335.4352 0 0.181762 0.402201E-02 9.68674 0.221591 0.807568 0.958205E-02 0.444752 0.167202E-01 1.321 640 2000 1374 0 0.181762 0.402201E-02 10.1950 0.447388E-01 0.807405 0.920404E-02 0.444752 0.167202E-01 1.321 4.987522 1
=====redu_chi=====
610.9947
=====best line=====
125.625 0.138025
=====best sigma=====
19.3655 1.92973
=====norm=====
1.34514 0.616395E-02
=====phoindx=====
3.06783 0.369703
=====pow_norm=====
1037.42 1904.59
=====best line=====
125.360 0.134461
=====best sigma=====
19.3655 1.39299
=====norm=====
1.34514 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
1037.42 par
=====redu_chi=====
107.8835
=====area_flux=====
1.248
=====area_flux_f=====
1.217
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 13 1 1600 3200 2010 0 1.34514 0.616395E-02 309.848 30.87568 3.06783 0.369703 1037.42 1904.59 1.248 1600 3200 2005.76 0 1.34514 0.616395E-02 309.848 22.28784 9.50000 -1.00000 1037.42 1904.59 1.217 107.8835 1
=====redu_chi=====
117.4861
=====best line=====
83.4661 0.211145
=====best sigma=====
9.68589 0.221705
=====norm=====
0.181773 0.402611E-02
=====phoindx=====
0.807620 0.958686E-02
=====pow_norm=====
0.444862 0.167312E-01
=====best line=====
85.8758 0.225085
=====best sigma=====
10.1892 0.434958E-01
=====norm=====
0.181773 par
=====phoindx=====
0.807465 0.920872E-02
=====pow_norm=====
0.444862 par
=====redu_chi=====
4.987540
=====area_flux=====
1.321
=====area_flux_f=====
1.321
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 13 1 640 2000 1335.4576 0 0.181773 0.402611E-02 9.68589 0.221705 0.807620 0.958686E-02 0.444862 0.167312E-01 1.321 640 2000 1374.0128 0 0.181773 0.402611E-02 10.1892 0.434958E-01 0.807465 0.920872E-02 0.444862 0.167312E-01 1.321 4.987540 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:22:07 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.407 +/- 5.6045E-03
Net count rate (cts/s) for file 2 2.407 +/- 5.6045E-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 = 632976.9 using 168 PHA bins.
Reduced chi-squared = 3956.105 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13622.93 using 168 PHA bins.
Reduced chi-squared = 85.14330 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2829.67 -3 83.21 16.61 0.2059 0.9766
0.5232 83.41 16.30 0.9707
1281.99 -3 76.19 9.298 0.1335 0.8253
0.3168 77.45 9.202 0.8308
760.461 -4 76.58 9.538 0.1452 0.8924
0.4226 78.45 10.30 0.8893
496.029 -5 76.63 9.474 0.1442 0.8897
0.4428 78.54 9.959 0.8901
495.332 -6 76.62 9.520 0.1449 0.8896
0.4427 78.52 9.882 0.8902
495.314 -7 76.62 9.515 0.1450 0.8897
0.4429 78.52 9.861 0.8904
495.313 -8 76.62 9.518 0.1450 0.8897
0.4429 78.52 9.865 0.8904
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.96E-07 | 0.00 0.00 -0.29 0.55 -0.58 0.00 0.00 0.53
1.02E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.11E-06 | 0.00 0.01 -0.96 -0.15 0.19 0.00 0.01 -0.16
4.51E-04 | 0.02 0.01 -0.02 -0.44 -0.79 0.02 0.01 -0.42
3.51E-02 | -0.13 -0.74 0.00 0.00 0.00 0.09 0.65 0.00
7.49E-02 | 0.26 -0.60 -0.01 0.00 0.00 0.33 -0.68 0.00
4.97E-02 | 0.91 -0.03 0.00 0.01 0.01 -0.37 0.19 0.01
5.44E-02 | 0.31 0.29 0.00 0.01 0.02 0.86 0.27 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.6218 +/- 0.226929 1
2 2 1 gaussian Sigma keV 9.51823 +/- 0.226440 1
3 3 1 gaussian norm 0.145039 +/- 0.311039E-02 1
4 4 2 powerlaw PhoIndex 0.889676 +/- 0.100088E-01 1
5 5 2 powerlaw norm 0.442918 +/- 0.178418E-01 1
6 6 3 gaussian LineE keV 78.5158 +/- 0.236069 2
7 7 3 gaussian Sigma keV 9.86544 +/- 0.235591 2
8 3 3 gaussian norm 0.145039 = par 3 2
9 8 4 powerlaw PhoIndex 0.890380 +/- 0.961314E-02 2
10 5 4 powerlaw norm 0.442918 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 495.3134 using 168 PHA bins.
Reduced chi-squared = 3.095709 for 160 degrees of freedom
Null hypothesis probability = 5.919E-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 ( 2.966) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.966) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9438 photons ( 1.1369E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9414 photons ( 1.1383E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:22:07 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.799 +/- 8.7001E-03
Net count rate (cts/s) for file 2 5.799 +/- 8.7001E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.393 +/- 1.0349E-02( 58.5% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.393 +/- 1.0349E-02( 58.5% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.1524235E+07 using 198 PHA bins.
Reduced chi-squared = 60653.87 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 83929.94 using 198 PHA bins.
Reduced chi-squared = 441.7365 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
45397.4 -3 116.9 18.96 0.3676 2.815
0.1440 109.8 18.96 2.764
20622.0 -2 106.1 19.23 1.316 9.463
5.8928E-02 109.6 19.32 6.930
18681.1 -1 108.5 19.32 1.269 9.492
2.3801E-02 110.2 19.35 8.574
17859.4 -1 110.1 19.36 1.259 9.496
3.6524E-04 110.6 19.36 9.484
17231.3 -1 111.1 19.36 1.245 9.498
8.5927E-05 111.0 19.36 9.495
16747.7 -1 111.9 19.37 1.232 9.499
7.5220E-06 111.3 19.37 9.498
16345.7 -1 112.4 19.37 1.219 9.500
2.3334E-06 111.7 19.37 9.499
16052.9 -1 112.8 19.37 1.209 9.500
1.0234E-06 112.0 19.37 9.500
15808.4 -1 113.1 19.37 1.200 9.500
3.7519E-07 112.2 19.37 9.500
15636.0 -1 113.4 19.37 1.194 9.500
4.9762E-08 112.4 19.37 9.500
15199.7 -1 113.9 19.37 1.175 9.500
7.4338E-10 112.9 19.37 9.500
15134.4 -1 114.1 19.37 1.172 9.500
1.6997E-10 112.9 19.37 9.500
14542.0 0 114.7 19.37 1.137 9.500
6.2201E-11 113.3 19.37 9.500
14163.3 0 115.4 19.37 1.113 9.500
8.1777E-12 113.7 19.37 9.500
13920.2 0 115.9 19.37 1.096 9.500
1.4013E-12 114.1 19.37 9.500
13758.8 0 116.4 19.37 1.083 9.500
5.3125E-13 114.4 19.37 9.500
13651.0 0 116.8 19.37 1.074 9.500
9.2141E-14 114.6 19.37 9.500
Fit parameter 5 has pegged
13504.0 0 117.3 19.37 1.058 9.500
0.000 114.8 19.19 9.500
Fit parameter 5 has pegged
13456.3 0 117.5 19.37 1.052 9.500
0.000 114.9 19.16 9.500
Fit parameter 5 has pegged
13424.3 0 117.6 19.37 1.047 9.500
0.000 115.0 19.12 9.500
Fit parameter 5 has pegged
13399.3 0 117.8 19.37 1.044 9.500
0.000 115.1 19.09 9.500
Fit parameter 5 has pegged
13381.3 0 117.8 19.37 1.041 9.500
0.000 115.1 19.06 9.500
Fit parameter 5 has pegged
13367.1 0 117.9 19.37 1.039 9.500
0.000 115.2 19.04 9.500
Fit parameter 5 has pegged
13354.2 0 118.0 19.37 1.037 9.500
0.000 115.3 19.01 9.500
Fit parameter 5 has pegged
13346.2 0 118.0 19.37 1.036 9.500
0.000 115.3 18.99 9.500
Fit parameter 5 has pegged
13338.9 0 118.1 19.37 1.035 9.500
0.000 115.4 18.98 9.500
Fit parameter 5 has pegged
13332.6 0 118.1 19.37 1.034 9.500
0.000 115.4 18.96 9.500
Fit parameter 5 has pegged
13328.3 0 118.1 19.37 1.033 9.500
0.000 115.4 18.95 9.500
Fit parameter 5 has pegged
13325.6 0 118.1 19.37 1.032 9.500
0.000 115.5 18.94 9.500
Fit parameter 5 has pegged
13323.7 0 118.2 19.37 1.032 9.500
0.000 115.5 18.94 9.500
Fit parameter 5 has pegged
13322.1 0 118.2 19.37 1.032 9.500
0.000 115.5 18.93 9.500
Fit parameter 5 has pegged
13319.0 0 118.2 19.37 1.031 9.500
0.000 115.5 18.92 9.500
Fit parameter 5 has pegged
13317.9 0 118.2 19.37 1.031 9.500
0.000 115.5 18.92 9.500
Fit parameter 5 has pegged
13316.5 0 118.2 19.37 1.030 9.500
0.000 115.6 18.91 9.500
Fit parameter 5 has pegged
13308.5 0 118.3 19.37 1.029 9.500
0.000 115.6 18.91 9.500
Fit parameter 5 has pegged
13301.3 0 118.3 19.37 1.028 9.500
0.000 115.6 18.91 9.500
Fit parameter 5 has pegged
13294.6 0 118.4 19.37 1.027 9.500
0.000 115.6 18.91 9.500
Fit parameter 5 has pegged
13288.5 0 118.4 19.37 1.026 9.500
0.000 115.6 18.91 9.500
Fit parameter 5 has pegged
13283.0 0 118.5 19.37 1.025 9.500
0.000 115.6 18.91 9.500
Fit parameter 5 has pegged
13277.9 0 118.5 19.37 1.024 9.500
0.000 115.6 18.90 9.500
Fit parameter 5 has pegged
13273.3 0 118.6 19.37 1.023 9.500
0.000 115.6 18.90 9.500
Fit parameter 5 has pegged
13269.0 0 118.6 19.37 1.022 9.500
0.000 115.6 18.90 9.500
Fit parameter 5 has pegged
13265.1 0 118.7 19.37 1.021 9.500
0.000 115.6 18.90 9.500
Fit parameter 5 has pegged
13261.5 0 118.7 19.37 1.020 9.500
0.000 115.6 18.89 9.500
Fit parameter 5 has pegged
13258.2 0 118.7 19.37 1.020 9.500
0.000 115.6 18.89 9.500
Fit parameter 5 has pegged
13255.1 0 118.8 19.37 1.019 9.500
0.000 115.6 18.89 9.500
Fit parameter 5 has pegged
13252.3 0 118.8 19.37 1.018 9.500
0.000 115.6 18.89 9.500
Fit parameter 5 has pegged
13249.8 0 118.8 19.37 1.018 9.500
0.000 115.6 18.88 9.500
Fit parameter 5 has pegged
13247.4 0 118.9 19.37 1.017 9.500
0.000 115.6 18.88 9.500
Fit parameter 5 has pegged
13245.2 0 118.9 19.37 1.016 9.500
0.000 115.7 18.88 9.500
Fit parameter 5 has pegged
13243.0 0 118.9 19.37 1.016 9.500
0.000 115.7 18.87 9.500
Fit parameter 5 has pegged
13241.2 0 118.9 19.37 1.015 9.500
0.000 115.7 18.87 9.500
Fit parameter 5 has pegged
13239.4 0 119.0 19.37 1.015 9.500
0.000 115.7 18.87 9.500
Fit parameter 5 has pegged
13237.8 0 119.0 19.37 1.014 9.500
0.000 115.7 18.86 9.500
Fit parameter 5 has pegged
13236.2 0 119.0 19.37 1.014 9.500
0.000 115.7 18.86 9.500
Fit parameter 5 has pegged
13234.8 0 119.0 19.37 1.013 9.500
0.000 115.7 18.86 9.500
Fit parameter 5 has pegged
13233.5 0 119.1 19.37 1.013 9.500
0.000 115.7 18.85 9.500
Fit parameter 5 has pegged
13232.1 0 119.1 19.37 1.013 9.500
0.000 115.7 18.85 9.500
Fit parameter 5 has pegged
13231.1 0 119.1 19.37 1.012 9.500
0.000 115.7 18.85 9.500
Fit parameter 5 has pegged
13230.0 0 119.1 19.37 1.012 9.500
0.000 115.7 18.84 9.500
Fit parameter 5 has pegged
13228.9 0 119.1 19.37 1.012 9.500
0.000 115.8 18.84 9.500
Fit parameter 5 has pegged
13228.0 0 119.1 19.37 1.011 9.500
0.000 115.8 18.84 9.500
Fit parameter 5 has pegged
13227.1 0 119.2 19.37 1.011 9.500
0.000 115.8 18.83 9.500
Fit parameter 5 has pegged
13226.2 0 119.2 19.37 1.011 9.500
0.000 115.8 18.83 9.500
Fit parameter 5 has pegged
13225.4 0 119.2 19.37 1.010 9.500
0.000 115.8 18.83 9.500
Fit parameter 5 has pegged
13224.7 0 119.2 19.37 1.010 9.500
0.000 115.8 18.82 9.500
Fit parameter 5 has pegged
13223.9 0 119.2 19.37 1.010 9.500
0.000 115.8 18.82 9.500
Fit parameter 5 has pegged
13223.3 0 119.2 19.37 1.009 9.500
0.000 115.8 18.82 9.500
Fit parameter 5 has pegged
13222.7 0 119.2 19.37 1.009 9.500
0.000 115.8 18.82 9.500
Fit parameter 5 has pegged
13222.0 0 119.3 19.37 1.009 9.500
0.000 115.8 18.81 9.500
Fit parameter 5 has pegged
13221.5 0 119.3 19.37 1.009 9.500
0.000 115.8 18.81 9.500
Fit parameter 5 has pegged
13221.0 0 119.3 19.37 1.008 9.500
0.000 115.8 18.81 9.500
Fit parameter 5 has pegged
13220.4 0 119.3 19.37 1.008 9.500
0.000 115.8 18.80 9.500
Fit parameter 5 has pegged
13219.9 0 119.3 19.37 1.008 9.500
0.000 115.9 18.80 9.500
Fit parameter 5 has pegged
13219.5 0 119.3 19.37 1.008 9.500
0.000 115.9 18.80 9.500
Fit parameter 5 has pegged
13219.1 0 119.3 19.37 1.007 9.500
0.000 115.9 18.80 9.500
Fit parameter 5 has pegged
13218.6 0 119.3 19.37 1.007 9.500
0.000 115.9 18.79 9.500
Fit parameter 5 has pegged
13218.3 0 119.3 19.37 1.007 9.500
0.000 115.9 18.79 9.500
Fit parameter 5 has pegged
13218.0 0 119.3 19.37 1.007 9.500
0.000 115.9 18.79 9.500
Fit parameter 5 has pegged
13217.6 0 119.3 19.37 1.007 9.500
0.000 115.9 18.79 9.500
Fit parameter 5 has pegged
13217.3 0 119.3 19.37 1.006 9.500
0.000 115.9 18.78 9.500
Fit parameter 5 has pegged
13217.0 0 119.3 19.37 1.006 9.500
0.000 115.9 18.78 9.500
Fit parameter 5 has pegged
13216.7 0 119.4 19.37 1.006 9.500
0.000 115.9 18.78 9.500
Fit parameter 5 has pegged
13216.4 0 119.4 19.37 1.006 9.500
0.000 115.9 18.78 9.500
Fit parameter 5 has pegged
13216.1 0 119.4 19.37 1.006 9.500
0.000 115.9 18.77 9.500
Fit parameter 5 has pegged
13215.8 0 119.4 19.37 1.006 9.500
0.000 115.9 18.77 9.500
Fit parameter 5 has pegged
13215.6 0 119.4 19.37 1.005 9.500
0.000 115.9 18.77 9.500
Fit parameter 5 has pegged
13215.4 0 119.4 19.37 1.005 9.500
0.000 115.9 18.77 9.500
Fit parameter 5 has pegged
13215.2 0 119.4 19.37 1.005 9.500
0.000 116.0 18.77 9.500
Fit parameter 5 has pegged
13215.0 0 119.4 19.37 1.005 9.500
0.000 116.0 18.76 9.500
Fit parameter 5 has pegged
13214.7 0 119.4 19.37 1.005 9.500
0.000 116.0 18.76 9.500
Fit parameter 5 has pegged
13214.5 0 119.4 19.37 1.005 9.500
0.000 116.0 18.76 9.500
Fit parameter 5 has pegged
13214.4 0 119.4 19.37 1.005 9.500
0.000 116.0 18.76 9.500
Fit parameter 5 has pegged
13214.2 0 119.4 19.37 1.005 9.500
0.000 116.0 18.75 9.500
Fit parameter 5 has pegged
13214.1 0 119.4 19.37 1.004 9.500
0.000 116.0 18.75 9.500
Fit parameter 5 has pegged
13213.9 0 119.4 19.37 1.004 9.500
0.000 116.0 18.75 9.500
Fit parameter 5 has pegged
13213.7 0 119.4 19.37 1.004 9.500
0.000 116.0 18.75 9.500
Fit parameter 5 has pegged
13213.6 0 119.4 19.37 1.004 9.500
0.000 116.0 18.75 9.500
Fit parameter 5 has pegged
13213.4 0 119.4 19.37 1.004 9.500
0.000 116.0 18.75 9.500
Fit parameter 5 has pegged
13213.3 0 119.4 19.37 1.004 9.500
0.000 116.0 18.74 9.500
Fit parameter 5 has pegged
13213.1 0 119.4 19.37 1.004 9.500
0.000 116.0 18.74 9.500
Fit parameter 5 has pegged
13213.0 0 119.4 19.37 1.004 9.500
0.000 116.0 18.74 9.500
Fit parameter 5 has pegged
13212.9 0 119.4 19.37 1.004 9.500
0.000 116.0 18.74 9.500
Fit parameter 5 has pegged
13212.8 0 119.4 19.37 1.004 9.500
0.000 116.0 18.74 9.500
Fit parameter 5 has pegged
13212.7 0 119.4 19.37 1.003 9.500
0.000 116.0 18.74 9.500
Fit parameter 5 has pegged
13212.6 0 119.4 19.37 1.003 9.500
0.000 116.0 18.73 9.500
Fit parameter 5 has pegged
13212.5 0 119.4 19.37 1.003 9.500
0.000 116.0 18.73 9.500
Fit parameter 5 has pegged
13212.4 0 119.4 19.37 1.003 9.500
0.000 116.0 18.73 9.500
Fit parameter 5 has pegged
13212.3 0 119.4 19.37 1.003 9.500
0.000 116.0 18.73 9.500
Fit parameter 5 has pegged
13212.2 0 119.5 19.37 1.003 9.500
0.000 116.0 18.73 9.500
Fit parameter 5 has pegged
13212.1 0 119.5 19.37 1.003 9.500
0.000 116.0 18.73 9.500
Fit parameter 5 has pegged
13212.1 0 119.5 19.37 1.003 9.500
0.000 116.0 18.73 9.500
Fit parameter 5 has pegged
13211.9 0 119.5 19.37 1.003 9.500
0.000 116.1 18.73 9.500
Fit parameter 5 has pegged
13211.9 0 119.5 19.37 1.003 9.500
0.000 116.1 18.72 9.500
Fit parameter 5 has pegged
13211.8 0 119.5 19.37 1.003 9.500
0.000 116.1 18.72 9.500
Fit parameter 5 has pegged
13211.8 0 119.5 19.37 1.003 9.500
0.000 116.1 18.72 9.500
Fit parameter 5 has pegged
13211.7 0 119.5 19.37 1.003 9.500
0.000 116.1 18.72 9.500
Fit parameter 5 has pegged
13211.7 0 119.5 19.37 1.002 9.500
0.000 116.1 18.72 9.500
Fit parameter 5 has pegged
13211.5 0 119.5 19.37 1.002 9.500
0.000 116.1 18.72 9.500
Fit parameter 5 has pegged
13211.5 0 119.5 19.37 1.002 9.500
0.000 116.1 18.72 9.500
Fit parameter 5 has pegged
13211.5 0 119.5 19.37 1.002 9.500
0.000 116.1 18.72 9.500
Fit parameter 5 has pegged
13211.4 0 119.5 19.37 1.002 9.500
0.000 116.1 18.72 9.500
Fit parameter 5 has pegged
13211.3 0 119.5 19.37 1.002 9.500
0.000 116.1 18.71 9.500
Fit parameter 5 has pegged
13211.3 0 119.5 19.37 1.002 9.500
0.000 116.1 18.71 9.500
Fit parameter 5 has pegged
13211.2 0 119.5 19.37 1.002 9.500
0.000 116.1 18.71 9.500
Fit parameter 5 has pegged
13211.2 0 119.5 19.37 1.002 9.500
0.000 116.1 18.71 9.500
Fit parameter 5 has pegged
13211.2 0 119.5 19.37 1.002 9.500
0.000 116.1 18.71 9.500
Fit parameter 5 has pegged
13211.1 0 119.5 19.37 1.002 9.500
0.000 116.1 18.71 9.500
Fit parameter 5 has pegged
13211.1 4 119.5 19.37 1.002 9.500
0.000 116.1 18.71 9.500
13211.1 4 119.5 19.37 1.002 9.500
0.000 116.1 18.71 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.36E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.38E-02 | 0.15 0.00 0.01 -0.93 -0.34
1.98E-02 | -0.99 -0.06 0.01 -0.12 -0.11
2.83E+00 | 0.06 -1.00 0.00 0.03 -0.05
1.28E-01 | 0.05 0.06 -0.01 0.35 -0.93
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 119.478 +/- 0.171999 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.67596 1
3 3 1 gaussian norm 1.00194 +/- 0.499235E-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 116.093 +/- 0.174268 2
7 7 3 gaussian Sigma keV 18.7101 +/- 0.346325 2
8 3 3 gaussian norm 1.00194 = 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 = 13211.06 using 198 PHA bins.
Reduced chi-squared = 69.53191 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 67.061) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 67.061) > 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 0.8443 photons ( 1.6910E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8066 photons ( 1.5831E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:08 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.407 +/- 5.6045E-03
Net count rate (cts/s) for file 2 2.407 +/- 5.6045E-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 = 736768.2 using 168 PHA bins.
Reduced chi-squared = 4604.802 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 22738.71 using 168 PHA bins.
Reduced chi-squared = 142.1169 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3300.10 -3 85.88 14.40 0.1422 0.9604
0.5283 85.84 13.56 0.9523
1524.41 -4 73.29 16.10 0.1682 0.8627
0.3668 75.21 14.50 0.8665
1292.01 -2 80.09 6.496 8.5770E-02 0.8702
0.4260 80.28 8.695 0.8663
797.102 -3 77.19 12.46 0.1350 0.8939
0.4544 78.05 11.02 0.8939
528.995 -4 77.20 9.594 0.1339 0.8907
0.4510 78.82 9.824 0.8915
495.672 -5 76.57 9.620 0.1457 0.8900
0.4435 78.49 9.909 0.8909
495.347 -6 76.64 9.487 0.1447 0.8897
0.4432 78.52 9.846 0.8904
495.317 -7 76.62 9.528 0.1451 0.8897
0.4429 78.51 9.871 0.8904
495.313 -8 76.62 9.514 0.1450 0.8897
0.4429 78.52 9.862 0.8904
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.96E-07 | 0.00 0.00 -0.29 0.55 -0.58 0.00 0.00 0.53
1.02E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.12E-06 | 0.00 0.01 -0.96 -0.15 0.19 0.00 0.01 -0.16
4.51E-04 | 0.02 0.01 -0.02 -0.44 -0.79 0.02 0.01 -0.42
3.52E-02 | -0.13 -0.74 0.00 0.00 0.00 0.09 0.65 0.00
7.51E-02 | 0.26 -0.60 -0.01 0.00 0.00 0.33 -0.68 0.00
4.97E-02 | 0.91 -0.04 0.00 0.01 0.01 -0.38 0.19 0.01
5.45E-02 | 0.31 0.29 0.00 0.01 0.02 0.86 0.27 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.6243 +/- 0.227156 1
2 2 1 gaussian Sigma keV 9.51408 +/- 0.226737 1
3 3 1 gaussian norm 0.144995 +/- 0.311485E-02 1
4 4 2 powerlaw PhoIndex 0.889676 +/- 0.100126E-01 1
5 5 2 powerlaw norm 0.442940 +/- 0.178472E-01 1
6 6 3 gaussian LineE keV 78.5164 +/- 0.236256 2
7 7 3 gaussian Sigma keV 9.86209 +/- 0.235819 2
8 3 3 gaussian norm 0.144995 = par 3 2
9 8 4 powerlaw PhoIndex 0.890379 +/- 0.961685E-02 2
10 5 4 powerlaw norm 0.442940 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 495.3134 using 168 PHA bins.
Reduced chi-squared = 3.095709 for 160 degrees of freedom
Null hypothesis probability = 5.919E-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 ( 2.966) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.966) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9438 photons ( 1.1369E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9414 photons ( 1.1383E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
85.14330
=====best line=====
76.6218 0.226929
=====best sigma=====
9.51823 0.226440
=====norm=====
0.145039 0.311039E-02
=====phoindx=====
0.889676 0.100088E-01
=====pow_norm=====
0.442918 0.178418E-01
=====best line=====
78.5158 0.236069
=====best sigma=====
9.86544 0.235591
=====norm=====
0.145039 par
=====phoindx=====
0.890380 0.961314E-02
=====pow_norm=====
0.442918 par
=====redu_chi=====
3.095709
=====area_flux=====
0.9438
=====area_flux_f=====
0.9414
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 14 1 640 2000 1225.9488 0 0.145039 0.311039E-02 9.51823 0.226440 0.889676 0.100088E-01 0.442918 0.178418E-01 0.9438 640 2000 1256.2528 0 0.145039 0.311039E-02 9.86544 0.235591 0.890380 0.961314E-02 0.442918 0.178418E-01 0.9414 3.095709 1
=====redu_chi=====
441.7365
=====best line=====
119.478 0.171999
=====best sigma=====
19.3655 1.67596
=====norm=====
1.00194 0.499235E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.093 0.174268
=====best sigma=====
18.7101 0.346325
=====norm=====
1.00194 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
69.53191
=====area_flux=====
0.8443
=====area_flux_f=====
0.8066
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 14 1 1600 3200 1911.648 0 1.00194 0.499235E-02 309.848 26.81536 9.50000 -1.00000 0.00000 -1.00000 0.8443 1600 3200 1857.488 0 1.00194 0.499235E-02 299.3616 5.5412 9.50000 -1.00000 0.00000 -1.00000 0.8066 69.53191 1
=====redu_chi=====
142.1169
=====best line=====
76.6243 0.227156
=====best sigma=====
9.51408 0.226737
=====norm=====
0.144995 0.311485E-02
=====phoindx=====
0.889676 0.100126E-01
=====pow_norm=====
0.442940 0.178472E-01
=====best line=====
78.5164 0.236256
=====best sigma=====
9.86209 0.235819
=====norm=====
0.144995 par
=====phoindx=====
0.890379 0.961685E-02
=====pow_norm=====
0.442940 par
=====redu_chi=====
3.095709
=====area_flux=====
0.9438
=====area_flux_f=====
0.9414
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 14 1 640 2000 1225.9888 0 0.144995 0.311485E-02 9.51408 0.226737 0.889676 0.100126E-01 0.442940 0.178472E-01 0.9438 640 2000 1256.2624 0 0.144995 0.311485E-02 9.86209 0.235819 0.890379 0.961685E-02 0.442940 0.178472E-01 0.9414 3.095709 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 13:22:08 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.364 +/- 5.5546E-03
Net count rate (cts/s) for file 2 2.364 +/- 5.5546E-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 = 666614.6 using 168 PHA bins.
Reduced chi-squared = 4166.341 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11088.12 using 168 PHA bins.
Reduced chi-squared = 69.30074 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1690.44 -3 84.08 15.38 0.1537 0.8901
0.4146 84.63 14.76 0.8867
1041.85 -3 77.78 8.523 8.5303E-02 0.8181
0.3263 79.78 8.852 0.8201
965.183 -2 78.95 10.81 0.1299 0.8393
0.3436 81.09 14.24 0.8392
708.742 -3 79.49 9.676 0.1111 0.8804
0.4102 81.27 8.940 0.8787
698.173 -3 79.09 9.682 0.1346 0.9035
0.4473 81.16 12.57 0.9030
585.077 -4 79.25 9.274 0.1270 0.9046
0.4565 81.30 9.753 0.9044
580.465 -1 79.15 9.611 0.1326 0.9052
0.4552 81.19 10.32 0.9055
577.846 -2 79.18 9.606 0.1337 0.9063
0.4567 81.17 10.03 0.9067
577.658 -3 79.19 9.638 0.1343 0.9094
0.4622 81.19 10.13 0.9097
577.636 -4 79.21 9.629 0.1342 0.9104
0.4644 81.19 10.06 0.9108
577.595 -5 79.20 9.637 0.1344 0.9105
0.4647 81.19 10.11 0.9110
577.595 0 79.20 9.637 0.1344 0.9105
0.4647 81.19 10.11 0.9110
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.33E-07 | 0.00 0.00 -0.31 0.55 -0.56 0.00 0.00 0.53
1.06E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
4.86E-06 | 0.00 0.01 -0.95 -0.16 0.20 0.00 0.02 -0.17
5.18E-04 | 0.02 0.01 -0.02 -0.43 -0.80 0.02 0.07 -0.41
2.81E-03 | 0.00 -0.09 0.02 0.03 0.05 0.01 0.99 0.04
5.39E-02 | 0.82 0.55 0.00 0.01 0.02 -0.17 0.05 0.01
6.77E-02 | -0.45 0.43 0.00 -0.01 -0.02 -0.78 0.05 -0.01
5.97E-02 | -0.36 0.71 0.01 0.01 0.01 0.60 0.05 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 79.2046 +/- 0.239627 1
2 2 1 gaussian Sigma keV 9.63731 +/- 0.242779 1
3 3 1 gaussian norm 0.134363 +/- 0.314413E-02 1
4 4 2 powerlaw PhoIndex 0.910541 +/- 0.106659E-01 1
5 5 2 powerlaw norm 0.464668 +/- 0.196809E-01 1
6 6 3 gaussian LineE keV 81.1923 +/- 0.253673 2
7 7 3 gaussian Sigma keV 10.1055 +/- 0.569479E-01 2
8 3 3 gaussian norm 0.134363 = par 3 2
9 8 4 powerlaw PhoIndex 0.910954 +/- 0.102481E-01 2
10 5 4 powerlaw norm 0.464668 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 577.5949 using 168 PHA bins.
Reduced chi-squared = 3.609968 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 ( 3.459) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.459) > 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 0.9011 photons ( 1.0888E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8997 photons ( 1.0914E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 13:22:08 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.518 +/- 8.4867E-03
Net count rate (cts/s) for file 2 5.518 +/- 8.4867E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.154 +/- 1.0143E-02( 57.2% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.154 +/- 1.0143E-02( 57.2% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 8477330. using 198 PHA bins.
Reduced chi-squared = 44617.53 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 93595.57 using 198 PHA bins.
Reduced chi-squared = 492.6083 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
50634.2 -3 118.3 18.27 0.3983 2.867
0.2134 111.5 18.15 2.820
33943.9 -3 106.9 19.20 1.465 9.465
9.4926E-02 107.0 19.08 7.539
32674.2 -1 107.5 19.31 1.463 9.488
2.7835E-02 107.8 19.27 9.293
31702.2 -1 108.1 19.36 1.455 9.496
3.7697E-03 108.5 19.33 9.428
30949.5 -1 108.6 19.36 1.447 9.499
1.5750E-03 109.1 19.35 9.499
30184.9 -1 109.1 19.37 1.436 1.575
6.1992E-04 109.7 19.36 9.500
29482.1 -1 109.6 19.37 1.426 9.047
1.9262E-02 110.2 19.36 9.500
28613.4 -1 110.1 19.37 1.411 1.703
1.8698E-03 110.7 19.37 9.500
27932.7 -1 110.5 19.37 1.400 2.039
9.6093E-02 111.2 19.37 9.500
27429.9 -1 110.9 19.37 1.393 2.856
0.1115 111.5 19.37 9.500
26535.9 -1 111.4 19.37 1.375 8.087
20.03 112.0 19.37 9.500
25924.5 -1 111.8 19.37 1.365 9.163
4.811 112.4 19.37 9.500
25767.3 -1 112.1 19.37 1.366 2.341
0.5580 112.7 19.37 9.500
25354.8 -1 112.4 19.37 1.358 3.271
0.1163 112.9 19.37 9.500
24857.0 -1 112.7 19.37 1.348 6.953
1.5983E-02 113.2 19.37 9.500
23217.3 -1 113.5 19.37 1.306 1.857
9.2524E-04 113.7 19.37 9.500
22469.8 -1 114.1 19.37 1.289 6.909
3.0205E-04 114.1 19.37 9.500
21792.3 -1 114.6 19.37 1.273 9.430
2.5099E-05 114.5 19.37 9.500
20050.0 0 115.6 19.37 1.220 -9.1834E-02
1.0340E-05 115.5 19.37 9.500
18911.2 0 116.6 19.37 1.182 3.3054E-02
4.2000E-06 116.3 19.37 9.500
18143.3 0 117.5 19.37 1.156 0.4635
6.4937E-09 117.0 19.37 9.500
17618.5 0 118.3 19.37 1.138 5.664
1.1172E-09 117.5 19.37 9.500
17257.0 0 118.9 19.37 1.124 8.834
6.6981E-12 118.0 19.37 9.500
17014.4 0 119.4 19.37 1.115 9.430
1.0503E-12 118.3 19.37 9.500
16839.7 0 119.9 19.37 1.108 9.468
4.5683E-15 118.7 19.37 9.500
Fit parameter 5 has pegged
16620.8 0 120.4 19.37 1.096 9.944
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
16549.8 0 120.6 19.37 1.090 9.944
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
16499.4 0 120.8 19.37 1.087 9.944
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
16464.1 0 120.9 19.37 1.084 9.944
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
16439.2 0 121.0 19.37 1.082 9.944
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16417.1 0 121.1 19.37 1.081 9.944
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16400.5 0 121.2 19.37 1.079 9.944
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
16390.3 0 121.2 19.37 1.079 9.944
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16381.7 0 121.3 19.37 1.078 9.944
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16375.0 0 121.3 19.37 1.078 9.944
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16367.3 0 121.3 19.37 1.077 9.944
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16362.7 0 121.3 19.37 1.076 9.944
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16358.1 0 121.3 19.37 1.076 9.944
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16356.7 0 121.4 19.37 1.076 9.944
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
16332.7 0 121.4 19.37 1.073 9.944
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16310.9 0 121.5 19.37 1.071 9.944
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16291.4 0 121.6 19.37 1.068 9.944
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16273.5 0 121.6 19.37 1.066 9.944
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
16257.3 0 121.7 19.37 1.064 9.944
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
16242.7 0 121.8 19.37 1.062 9.944
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
16229.3 0 121.8 19.37 1.060 9.944
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
16217.1 0 121.9 19.37 1.058 9.944
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
16205.8 0 121.9 19.37 1.057 9.944
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
16195.7 0 122.0 19.37 1.055 9.944
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
16186.2 0 122.0 19.37 1.054 9.944
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
16177.6 0 122.1 19.37 1.053 9.944
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
16169.9 0 122.1 19.37 1.051 9.944
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
16162.6 0 122.2 19.37 1.050 9.944
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
16156.0 0 122.2 19.37 1.049 9.944
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
16149.9 0 122.3 19.37 1.048 9.944
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
16144.2 0 122.3 19.37 1.047 9.944
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
16139.0 0 122.4 19.37 1.046 9.944
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
16134.3 0 122.4 19.37 1.045 9.944
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
16129.9 0 122.4 19.37 1.045 9.944
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
16125.8 0 122.5 19.37 1.044 9.944
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
16122.1 0 122.5 19.37 1.043 9.944
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16118.7 0 122.6 19.37 1.043 9.944
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16115.5 0 122.6 19.37 1.042 9.944
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16112.4 0 122.6 19.37 1.041 9.944
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16109.7 0 122.6 19.37 1.041 9.944
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16107.2 0 122.7 19.37 1.040 9.944
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16104.8 0 122.7 19.37 1.040 9.944
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16102.6 0 122.7 19.37 1.039 9.944
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16100.5 0 122.8 19.37 1.039 9.944
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
16098.6 0 122.8 19.37 1.038 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16097.0 0 122.8 19.37 1.038 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16095.3 0 122.8 19.37 1.038 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16093.8 0 122.8 19.37 1.037 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16092.4 0 122.9 19.37 1.037 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16091.0 0 122.9 19.37 1.037 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16089.9 0 122.9 19.37 1.036 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16088.7 0 122.9 19.37 1.036 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16087.6 0 122.9 19.37 1.036 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16086.6 0 122.9 19.37 1.035 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16085.7 0 123.0 19.37 1.035 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16084.8 0 123.0 19.37 1.035 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16084.0 0 123.0 19.37 1.035 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16083.2 0 123.0 19.37 1.034 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16082.4 0 123.0 19.37 1.034 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16081.8 0 123.0 19.37 1.034 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16081.2 0 123.0 19.37 1.034 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16080.6 0 123.1 19.37 1.034 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16080.1 0 123.1 19.37 1.033 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16079.5 0 123.1 19.37 1.033 9.944
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
16079.1 0 123.1 19.37 1.033 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16078.6 0 123.1 19.37 1.033 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16078.2 0 123.1 19.37 1.033 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16077.8 0 123.1 19.37 1.033 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16077.4 0 123.1 19.37 1.033 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16077.1 0 123.1 19.37 1.032 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16076.7 0 123.1 19.37 1.032 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16076.4 0 123.1 19.37 1.032 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16076.1 0 123.2 19.37 1.032 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16075.9 0 123.2 19.37 1.032 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16075.6 0 123.2 19.37 1.032 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16075.3 0 123.2 19.37 1.032 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16075.1 0 123.2 19.37 1.032 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16074.9 0 123.2 19.37 1.032 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16074.7 0 123.2 19.37 1.032 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16074.5 0 123.2 19.37 1.032 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16074.3 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16074.1 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16074.0 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16073.9 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16073.7 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16073.5 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16073.4 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16073.2 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16073.1 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16073.0 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.9 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.8 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.7 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.6 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.6 0 123.2 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.5 0 123.3 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.4 0 123.3 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.3 0 123.3 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.2 0 123.3 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.2 0 123.3 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.1 0 123.3 19.37 1.031 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16072.0 1 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.9 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.9 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.8 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
16071.8 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.7 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.6 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.6 1 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.5 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.5 1 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.5 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
16071.4 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.4 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.3 1 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.3 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.3 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.2 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.2 1 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
16071.1 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.1 1 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.0 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16071.0 1 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16070.9 1 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16070.9 1 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16070.8 0 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
16070.8 4 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
16070.8 4 123.3 19.37 1.030 9.944
0.000 120.0 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.29E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.49E-02 | 0.21 0.00 0.01 -0.97 -0.07
1.84E-02 | -0.98 -0.04 0.01 -0.21 -0.02
3.14E+00 | -0.04 0.92 0.00 -0.03 0.38
1.79E+00 | 0.01 -0.38 0.00 -0.06 0.92
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 123.298 +/- 0.150704 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.71513 1
3 3 1 gaussian norm 1.02989 +/- 0.459409E-02 1
4 4 2 powerlaw PhoIndex 9.94363 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 120.023 +/- 0.160950 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.40638 2
8 3 3 gaussian norm 1.02989 = 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 = 16070.82 using 198 PHA bins.
Reduced chi-squared = 84.58328 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 81.578) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 81.578) > 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 0.9119 photons ( 1.8632E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8747 photons ( 1.7568E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_slow.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_fast.pha
with integration time 7.6616E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 13:22:09 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.364 +/- 5.5546E-03
Net count rate (cts/s) for file 2 2.364 +/- 5.5546E-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 = 756543.7 using 168 PHA bins.
Reduced chi-squared = 4728.398 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18532.31 using 168 PHA bins.
Reduced chi-squared = 115.8269 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1925.81 -3 86.18 13.10 0.1277 0.9253
0.4705 86.61 12.06 0.9189
909.850 -4 76.74 12.47 0.1309 0.8694
0.3874 79.43 11.28 0.8712
817.703 -5 81.33 9.516 0.1159 0.9276
0.4910 81.94 9.804 0.9254
735.530 -6 78.94 11.55 0.1368 0.9151
0.4726 81.11 12.11 0.9158
631.374 -7 79.77 9.689 0.1185 0.9010
0.4558 81.41 9.741 0.9017
625.962 -8 79.13 9.756 0.1354 0.9118
0.4661 81.17 11.61 0.9120
580.297 -9 79.25 9.402 0.1300 0.9066
0.4595 81.25 9.903 0.9069
579.278 0 79.22 9.463 0.1308 0.9067
0.4592 81.23 9.932 0.9071
578.685 0 79.20 9.502 0.1315 0.9068
0.4590 81.21 9.961 0.9072
578.219 -1 79.18 9.618 0.1336 0.9072
0.4585 81.18 10.20 0.9076
577.753 -2 79.19 9.620 0.1340 0.9079
0.4596 81.18 10.03 0.9083
577.632 -3 79.20 9.637 0.1343 0.9098
0.4631 81.19 10.13 0.9102
577.632 -4 79.21 9.631 0.1343 0.9104
0.4645 81.19 10.06 0.9108
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.32E-07 | 0.00 0.00 -0.31 0.55 -0.56 0.00 0.00 0.53
1.06E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
4.86E-06 | 0.00 0.01 -0.95 -0.16 0.20 0.00 0.03 -0.17
5.16E-04 | 0.02 0.01 -0.02 -0.43 -0.80 0.02 0.08 -0.41
2.61E-03 | 0.00 -0.08 0.02 0.04 0.06 0.01 0.99 0.04
5.39E-02 | 0.82 0.55 0.00 0.01 0.02 -0.17 0.05 0.01
6.80E-02 | -0.44 0.41 0.00 -0.01 -0.02 -0.80 0.05 -0.01
5.99E-02 | -0.37 0.72 0.01 0.01 0.01 0.58 0.05 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 79.2058 +/- 0.239677 1
2 2 1 gaussian Sigma keV 9.63058 +/- 0.242883 1
3 3 1 gaussian norm 0.134255 +/- 0.314612E-02 1
4 4 2 powerlaw PhoIndex 0.910428 +/- 0.106680E-01 1
5 5 2 powerlaw norm 0.464456 +/- 0.196214E-01 1
6 6 3 gaussian LineE keV 81.1928 +/- 0.254592 2
7 7 3 gaussian Sigma keV 10.0630 +/- 0.547949E-01 2
8 3 3 gaussian norm 0.134255 = par 3 2
9 8 4 powerlaw PhoIndex 0.910814 +/- 0.102501E-01 2
10 5 4 powerlaw norm 0.464456 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 577.6320 using 168 PHA bins.
Reduced chi-squared = 3.610200 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 ( 3.459) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.459) > 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 0.9010 photons ( 1.0887E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8997 photons ( 1.0914E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.6616E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
69.30074
=====best line=====
79.2046 0.239627
=====best sigma=====
9.63731 0.242779
=====norm=====
0.134363 0.314413E-02
=====phoindx=====
0.910541 0.106659E-01
=====pow_norm=====
0.464668 0.196809E-01
=====best line=====
81.1923 0.253673
=====best sigma=====
10.1055 0.569479E-01
=====norm=====
0.134363 par
=====phoindx=====
0.910954 0.102481E-01
=====pow_norm=====
0.464668 par
=====redu_chi=====
3.609968
=====area_flux=====
0.9011
=====area_flux_f=====
0.8997
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 15 1 640 2000 1267.2736 0 0.134363 0.314413E-02 9.63731 0.242779 0.910541 0.106659E-01 0.464668 0.196809E-01 0.9011 640 2000 1299.0768 0 0.134363 0.314413E-02 10.1055 0.569479E-01 0.910954 0.102481E-01 0.464668 0.196809E-01 0.8997 3.609968 1
=====redu_chi=====
492.6083
=====best line=====
123.298 0.150704
=====best sigma=====
19.3655 1.71513
=====norm=====
1.02989 0.459409E-02
=====phoindx=====
9.94363 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
120.023 0.160950
=====best sigma=====
19.3655 1.40638
=====norm=====
1.02989 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
84.58328
=====area_flux=====
0.9119
=====area_flux_f=====
0.8747
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 15 1 1600 3200 1972.768 0 1.02989 0.459409E-02 309.848 27.44208 9.94363 -1.00000 0.00000 -1.00000 0.9119 1600 3200 1920.368 0 1.02989 0.459409E-02 309.848 22.50208 9.50000 -1.00000 0.00000 -1.00000 0.8747 84.58328 1
=====redu_chi=====
115.8269
=====best line=====
79.2058 0.239677
=====best sigma=====
9.63058 0.242883
=====norm=====
0.134255 0.314612E-02
=====phoindx=====
0.910428 0.106680E-01
=====pow_norm=====
0.464456 0.196214E-01
=====best line=====
81.1928 0.254592
=====best sigma=====
10.0630 0.547949E-01
=====norm=====
0.134255 par
=====phoindx=====
0.910814 0.102501E-01
=====pow_norm=====
0.464456 par
=====redu_chi=====
3.610200
=====area_flux=====
0.9010
=====area_flux_f=====
0.8997
=====exp=====
7.6616E+04
=====exp=====
7.6616E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.6616E+04 15 1 640 2000 1267.2928 0 0.134255 0.314612E-02 9.63058 0.242883 0.910428 0.106680E-01 0.464456 0.196214E-01 0.9010 640 2000 1299.0848 0 0.134255 0.314612E-02 10.0630 0.547949E-01 0.910814 0.102501E-01 0.464456 0.196214E-01 0.8997 3.610200 1
rm -rf ae703029010_xspec*.log xspec*.xcm xautosav.xcm ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
rm -rf ae703029010_hxdmkgainhist_tmp
-> hxdmkgainhist_gso successful for ae703029010hxd_1_wel.sff.input_name,f,a,"ae703029010hxd_1_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae703029010hxd_0.hk",,,"HK file name" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" process_id,s,a,"ae703029010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_pin
FFF= ae703029010hxd_1_wel.sff, HK= ae703029010hxd_0.hk TSTART 2.680069774699996E+08, TSOP 2.681032454572829E+08-> hxdmkgainhist_pin successful for ae703029010hxd_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,"ae703029010hxd_1_wel.sff",,,"HXD event fits file name ?" phaextractor_mode,b,a,n,,,"PHA Extractor Mode : yes or no" ghfwrite_mode,b,a,y,,,"GHF FITS write Mode : yes or no" phaextractor_base_name,s,a,"",,,"PHA base name in PHA extractor mode" phaextractor_gti_list,f,a,"",,,"GTI file list in PHA extractor mode" phaextractor_extract_gso,b,h,y,,,"Extract GSO PHA or not : yes or no " phaextractor_extract_pin,b,h,n,,,"Extract PIN PHA or not : yes or no " phaextractor_gso_detchan,i,h,256,,,"Extract GSO Channel" phaextractor_pin_detchan,i,h,256,,,"Extract PIN Channel" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" gso_fitlog_name,f,a,"@hxd_gso_ghf.list",,,"HXD gso fitlog file name" valid_date,s,ql,"2008-07-17",,,"Valid Date (YYYY-MM-DD)for Gain History Files" valid_time,s,a,"13:22:12",,,"Valid Time (hh:mm:ss) for Gain History Files" pin_gainhist_name,f,a,"!ae703029010hxd_1_pin.ghf",,,"HXD pin gainhistory file name" gso_gainhist_name,f,a,"!ae703029010hxd_1_gso.ghf",,,"HXD gso gainhistory file name" gainhistory_iomode,s,h,"no",,,"Add result to gainhistory file: yes or no ?" leapfile,f,a,"CALDB",,,"leapsec file name" use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDmkgainhist version 2.0.1
-- Functions by HXD team --
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdeventFitsToBnkUtil version 2.0.0
hxdFitsHeaderUtil version 2.0.3
hxdcaldbUtil version 0.7.1
gain history script version 1.3.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmkgainhistWriteGHF version 0.4.5
[ 4] HXDmkgainhistWritePHA version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
|
[ 1] HXDeventFitsRead version 2.0.2
| OK: 1/1
[ 2] HXDleapsecInit version 2.0.1
QUIT: 1 | OK: 1/1
<--- [ 3] HXDmkgainhistWriteGHF version 0.4.5
| OK: 0/1
[ 4] HXDmkgainhistWritePHA version 2.0.0
| OK: 0/0
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 78/5000
buffer size : 120000
buffer used : 11008
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 6 1 0 SINGLE
HXD:PIL:input_name 256 24 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 0 SINGLE
HXD:ftools:hxdtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 2 0 SINGLE
HXD:ftools:hxdpi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdgrade_yn 4 4 1 0 SINGLE
HXD:PIL:ghfwrite_mode 4 4 1 0 SINGLE
HXD:PIL:pin_fitlog_name 256 11 1 0 SINGLE
HXD:PIL:gso_fitlog_list 256 17 1 0 SINGLE
HXD:PIL:gso_gdalph_name 256 14 1 0 SINGLE
HXD:PIL:gso_annihi_name 256 15 1 0 SINGLE
HXD:PIL:gso_gd150k_name 256 17 1 0 SINGLE
HXD:PIL:valid_date 256 8 2 0 SINGLE
HXD:PIL:valid_time 256 0 0 0 SINGLE
HXD:PIL:pin_gainhist_name 256 25 1 0 SINGLE
HXD:PIL:gso_gainhist_name 256 25 1 0 SINGLE
HXD:PIL:gainhistory_iomode 256 2 1 0 SINGLE
HXDeventFitsRead:IROW 4 4 1 0 SINGLE
HXD:WEL:EV_TIME 8 8 1 0 SINGLE
HXD:WEL:MTI 4 4 1 0 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 1 0 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 1 0 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 1 0 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 1 0 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 1 0 SINGLE
HXD:WEL:GRADE_RESERV 4 4 1 0 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 1 0 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 1 0 SINGLE
HXD:WEL:DET_TYPE 4 4 1 0 SINGLE
HXD:WEL:PI_FAST 4 4 1 0 SINGLE
HXD:WEL:PI_SLOW 4 4 1 0 SINGLE
HXD:WEL:PI_PIN 16 16 1 0 SINGLE
HXD:WEL:UPI_FAST 8 8 1 0 SINGLE
HXD:WEL:UPI_SLOW 8 8 1 0 SINGLE
HXD:WEL:UPI_PIN 32 32 1 0 SINGLE
HXD:WEL:PIN_ID 4 4 1 0 SINGLE
HXD:WEL:UNITID 4 4 1 0 SINGLE
HXD:WEL:LENGTH_CHK 4 4 1 0 SINGLE
HXD:WEL:WELTIME 4 4 1 0 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 1 0 SINGLE
HXD:WEL:TRIG 4 4 1 0 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 1 0 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 1 0 SINGLE
HXD:WEL:PHA_FAST 4 4 1 0 SINGLE
HXD:WEL:PHA_SLOW 4 4 1 0 SINGLE
HXD:WEL:PHA_PIN 16 16 1 0 SINGLE
HXD:WEL:PACKET_AETIME 8 8 1 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 1 0 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 1 0 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 0 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 1 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 0 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDeventFitsRead:NROW 4 4 1 0 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 0 SINGLE
HXDeventFitsRead:TSTART 8 8 1 0 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 0 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 1 0 SINGLE
HXD:WEL:EVENT 204 204 1 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 0.014 0.005 0.019 14.29
[ 2] HXDleapsecInit 0.004 0.002 0.006 4.51
[ 3] HXDmkgainhistWriteGHF 0.067 0.001 0.068 51.13
[ 4] HXDmkgainhistWritePHA 0.002 0.000 0.002 1.50
(others) 0.028 0.010 0.038 28.57
--------------------------------------------------------------------------
TOTAL 0.115 0.018 0.133 100.00
-> hxdmkgainhist successful for ae703029010hxd_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,"ae703029010hxd_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: ae703029010hxd_0.hk
2: ae703029010.ehk
HXDpi_init: time duration = 268006975.475273 -- 268103249.458510
Opening GSO calibration files OK
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TEMP_W10_CAL' at hdu=2, col=111 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W11_CAL' at hdu=2, col=112 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W12_CAL' at hdu=2, col=113 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W13_CAL' at hdu=2, col=114 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W20_CAL' at hdu=2, col=115 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W21_CAL' at hdu=2, col=116 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W22_CAL' at hdu=2, col=117 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W23_CAL' at hdu=2, col=118 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W00_CAL' at hdu=2, col=119 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W01_CAL' at hdu=2, col=120 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W02_CAL' at hdu=2, col=121 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W03_CAL' at hdu=2, col=122 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W30_CAL' at hdu=2, col=123 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W31_CAL' at hdu=2, col=124 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W32_CAL' at hdu=2, col=125 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W33_CAL' at hdu=2, col=126 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T10_CAL' at hdu=2, col=127 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T12_CAL' at hdu=2, col=128 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T14_CAL' at hdu=2, col=129 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T21_CAL' at hdu=2, col=130 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T23_CAL' at hdu=2, col=131 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W2_CAL' at hdu=2, col=132 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P1_CAL' at hdu=2, col=133 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T1_CAL' at hdu=2, col=134 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T00_CAL' at hdu=2, col=135 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T02_CAL' at hdu=2, col=136 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T04_CAL' at hdu=2, col=137 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T31_CAL' at hdu=2, col=138 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T33_CAL' at hdu=2, col=139 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W0_CAL' at hdu=2, col=140 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P0_CAL' at hdu=2, col=141 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T3_CAL' at hdu=2, col=142 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP4_CAL' at hdu=2, col=143 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP3_CAL' at hdu=2, col=144 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY4_CAL' at hdu=2, col=145 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY3_CAL' at hdu=2, col=146 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM3_CAL' at hdu=2, col=147 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM4_CAL' at hdu=2, col=148 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR3_CAL' at hdu=2, col=149 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CENTER_CAL' at hdu=2, col=150 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP2_CAL' at hdu=2, col=151 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP1_CAL' at hdu=2, col=152 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY2_CAL' at hdu=2, col=153 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY1_CAL' at hdu=2, col=154 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM1_CAL' at hdu=2, col=155 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM2_CAL' at hdu=2, col=156 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR1_CAL' at hdu=2, col=157 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR2_CAL' at hdu=2, col=158 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'T_SAA_HXD' at hdu=2, col=29 in 'ae703029010.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: 10258753
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 10258752/10258753
[ 2] HXDrndInit version 0.2.0
| OK: 10258752/10258752
[ 3] HXDgethkInit version 0.1.0
| OK: 10258752/10258752
[ 4] HXDpiFITS version 2.1.3
| OK: 10258752/10258752
[ 5] HXDpi version 2.1.3
| OK: 10258752/10258752
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 10258752/10258752
GET: 10258752
*** 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 10258752 0 SINGLE
HXD:WEL:EV_TIME 8 8 10258752 10258752 SINGLE
HXD:WEL:MTI 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 10258752 10258752 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_RESERV 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 10258752 10258752 SINGLE
HXD:WEL:DET_TYPE 4 4 10258752 10258752 SINGLE
HXD:WEL:PI_FAST 4 4 20517504 10258752 SINGLE
HXD:WEL:PI_SLOW 4 4 20517504 10258752 SINGLE
HXD:WEL:PI_PIN 16 16 20517504 10258752 SINGLE
HXD:WEL:UPI_FAST 8 8 20517504 10258752 SINGLE
HXD:WEL:UPI_SLOW 8 8 20517504 10258752 SINGLE
HXD:WEL:UPI_PIN 32 32 20517504 10258752 SINGLE
HXD:WEL:PIN_ID 4 4 10258752 10258752 SINGLE
HXD:WEL:UNITID 4 4 10258752 10258752 SINGLE
HXD:WEL:LENGTH_CHK 4 4 10258752 10258752 SINGLE
HXD:WEL:WELTIME 4 4 10258752 10258752 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 10258752 10258752 SINGLE
HXD:WEL:TRIG 4 4 10258752 10258752 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 10258752 10258752 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 10258752 10258752 SINGLE
HXD:WEL:PHA_FAST 4 4 10258752 10258752 SINGLE
HXD:WEL:PHA_SLOW 4 4 10258752 10258752 SINGLE
HXD:WEL:PHA_PIN 16 16 10258752 10258752 SINGLE
HXD:WEL:PACKET_AETIME 8 8 10258752 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 10258752 20515781 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 10258752 10258752 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 10258752 20517504 SINGLE
HXD:WEL:EVENT 204 204 20517504 20517504 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 21367 10257029 SINGLE
HXDpi:EHKDATA 136 136 21367 10257029 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 230.336 16.429 246.765 39.57
[ 2] HXDrndInit 3.437 6.568 10.005 1.60
[ 3] HXDgethkInit 2.459 5.825 8.284 1.33
[ 4] HXDpiFITS 7.499 6.101 13.600 2.18
[ 5] HXDpi 74.663 5.580 80.243 12.87
[ 6] HXD2ndeventFitsWrite 225.703 39.064 264.767 42.45
(others) 0.020 0.008 0.028 0.00
--------------------------------------------------------------------------
TOTAL 544.115 79.576 623.691 100.00
-> hxdpi successful for ae703029010hxd_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,"ae703029010hxd_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: 10258753
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 10258752/10258753
[ 2] HXDleapsecInit version 2.0.1
| OK: 10258752/10258752
[ 3] HXDgradeFITS version 2.0.4
| OK: 10258752/10258752
[ 4] HXDgrade version 2.0.3
| OK: 10258752/10258752
[ 5] HXD2ndeventFitsWrite version 2.0.4
| OK: 10258752/10258752
GET: 10258752
*** 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 10258752 0 SINGLE
HXD:WEL:EV_TIME 8 8 10258752 10258752 SINGLE
HXD:WEL:MTI 4 4 10258752 10258752 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 20517504 10258752 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 20517504 10258752 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 20517504 10258752 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 20517504 10258752 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 20517504 10258752 SINGLE
HXD:WEL:GRADE_RESERV 4 4 20517504 10258752 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 20517504 10258752 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 20517504 10258752 SINGLE
HXD:WEL:DET_TYPE 4 4 20517504 10258752 SINGLE
HXD:WEL:PI_FAST 4 4 10258752 10258752 SINGLE
HXD:WEL:PI_SLOW 4 4 10258752 10258752 SINGLE
HXD:WEL:PI_PIN 16 16 10258752 10258752 SINGLE
HXD:WEL:UPI_FAST 8 8 10258752 10258752 SINGLE
HXD:WEL:UPI_SLOW 8 8 10258752 10258752 SINGLE
HXD:WEL:UPI_PIN 32 32 10258752 10258752 SINGLE
HXD:WEL:PIN_ID 4 4 20517504 10258752 SINGLE
HXD:WEL:UNITID 4 4 10258752 10258752 SINGLE
HXD:WEL:LENGTH_CHK 4 4 10258752 10258752 SINGLE
HXD:WEL:WELTIME 4 4 10258752 10258752 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 10258752 10258752 SINGLE
HXD:WEL:TRIG 4 4 10258752 10258752 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 10258752 10258752 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 10258752 10258752 SINGLE
HXD:WEL:PHA_FAST 4 4 10258752 10258752 SINGLE
HXD:WEL:PHA_SLOW 4 4 10258752 10258752 SINGLE
HXD:WEL:PHA_PIN 16 16 10258752 10258752 SINGLE
HXD:WEL:PACKET_AETIME 8 8 10258752 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 10258752 10258752 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 10258752 10258752 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 10258752 10258752 SINGLE
HXD:WEL:EVENT 204 204 10258752 10258752 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 227.321 7.595 234.916 43.91
[ 2] HXDleapsecInit 2.902 6.296 9.198 1.72
[ 3] HXDgradeFITS 2.150 5.638 7.788 1.46
[ 4] HXDgrade 22.262 5.423 27.685 5.17
[ 5] HXD2ndeventFitsWrite 221.153 34.244 255.396 47.74
(others) 0.016 0.009 0.025 0.00
--------------------------------------------------------------------------
TOTAL 475.803 59.205 535.008 100.00
-> hxdgrade successful for ae703029010hxd_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,"ae703029010hxd_2_wel.fff",,,"HXD event fits file name ?" tim_filename,f,a,"ae703029010.tim",,,"input .tim FITS file name (HXDtimeSet)" leapfile,f,a,"CALDB",,,"leapsec file name" hklist_name,f,a,"ae703029010hxd_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 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae703029010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 8949117
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 8949116/8949117
[ 2] HXDleapsecInit version 2.0.1
| OK: 8949116/8949116
[ 3] HXDgethkInit version 0.1.0
| OK: 8949116/8949116
[ 4] HXDfwelTimeFITS version 0.3.8
| OK: 8949116/8949116
[ 5] HXDfwelTime version 2.0.0
| OK: 8949116/8949116
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 8949116/8949116
GET: 8949116
*** 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 8949116 0 SINGLE
HXD:WEL:EV_TIME 8 8 17898232 8949116 SINGLE
HXD:WEL:MTI 4 4 17898232 8949116 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 8949116 8949116 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_RESERV 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 8949116 8949116 SINGLE
HXD:WEL:DET_TYPE 4 4 8949116 8949116 SINGLE
HXD:WEL:PI_FAST 4 4 8949116 8949116 SINGLE
HXD:WEL:PI_SLOW 4 4 8949116 8949116 SINGLE
HXD:WEL:PI_PIN 16 16 8949116 8949116 SINGLE
HXD:WEL:UPI_FAST 8 8 8949116 8949116 SINGLE
HXD:WEL:UPI_SLOW 8 8 8949116 8949116 SINGLE
HXD:WEL:UPI_PIN 32 32 8949116 8949116 SINGLE
HXD:WEL:PIN_ID 4 4 8949116 8949116 SINGLE
HXD:WEL:UNITID 4 4 8949116 17897224 SINGLE
HXD:WEL:LENGTH_CHK 4 4 8949116 8949116 SINGLE
HXD:WEL:WELTIME 4 4 8949116 17897224 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 8949116 8949116 SINGLE
HXD:WEL:TRIG 4 4 8949116 8949116 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 8949116 8949116 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 8949116 8949116 SINGLE
HXD:WEL:PHA_FAST 4 4 8949116 8949116 SINGLE
HXD:WEL:PHA_SLOW 4 4 8949116 8949116 SINGLE
HXD:WEL:PHA_PIN 16 16 8949116 8949116 SINGLE
HXD:WEL:PACKET_AETIME 8 8 8949116 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 8949116 26845332 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 8949116 17897224 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 8969542 26847348 SINGLE
HXD:WEL:EVENT 204 204 17897224 8948108 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 9709 9709 SINGLE
HXDfwelTime:HXD_AE_TM_LATCH_TM 4 4 9709 9709 SINGLE
HXDfwelTime:HXD_WPU_CLK_RATE 4 4 9709 8948109 SINGLE
HXDfwelTime:HXD_SYS_TIME 8 8 9709 0 SINGLE
HXDfwelTime:HXD_HK_TIME 8 8 9709 0 SINGLE
HXDfwelTime:PWH 64 0 0 0 SINGLE
HXDfwelTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfwelTime:TIME_INVALID 4 4 8949116 0 SINGLE
HXDfwelTime:EV_TIME_TLM 8 8 8949116 0 SINGLE
HXDfwelTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 198.950 12.119 211.069 42.49
[ 2] HXDleapsecInit 2.433 5.499 7.932 1.60
[ 3] HXDgethkInit 1.812 4.941 6.753 1.36
[ 4] HXDfwelTimeFITS 4.046 4.646 8.693 1.75
[ 5] HXDfwelTime 38.327 5.235 43.562 8.77
[ 6] HXD2ndeventFitsWrite 189.291 29.429 218.720 44.03
(others) 0.015 0.007 0.022 0.00
--------------------------------------------------------------------------
TOTAL 434.874 61.877 496.750 100.00
-> hxdtime successful for ae703029010hxd_2_wel.sff.input_name,f,a,"ae703029010hxd_2_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae703029010hxd_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,"ae703029010",,,"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 = ae703029010hxd_2_wel.sff, HK = ae703029010hxd_0.hk
rm -rf ae703029010_hxdmkgainhist_tmp; mkdir ae703029010_hxdmkgainhist_tmp
maketime infile="ae703029010hxd_0.hk+1" outfile="ae703029010_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 = ae703029010_hxdmkgainhist_tmp/total.gti
fdump infile="ae703029010_hxdmkgainhist_tmp/total.gti" outfile="ae703029010_hxdmkgainhist_tmp/fdump.log" columns='START,STOP' rows=- prhead=no pagewidth=100 showrow=no
fdump log = ae703029010_hxdmkgainhist_tmp/fdump.log
GTI LIST = ae703029010_hxdmkgainhist_tmp/gtilist
Exposure = 1000000
Making Non-selection fits file now.
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0.fff" expr="(UNITID=="0")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1.fff" expr="(UNITID=="1")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2.fff" expr="(UNITID=="2")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3.fff" expr="(UNITID=="3")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4.fff" expr="(UNITID=="4")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5.fff" expr="(UNITID=="5")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6.fff" expr="(UNITID=="6")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7.fff" expr="(UNITID=="7")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8.fff" expr="(UNITID=="8")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9.fff" expr="(UNITID=="9")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10.fff" expr="(UNITID=="10")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11.fff" expr="(UNITID=="11")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12.fff" expr="(UNITID=="12")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13.fff" expr="(UNITID=="13")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14.fff" expr="(UNITID=="14")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15.fff" expr="(UNITID=="15")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
Making Hit Pattern 8 fits file now.
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0_hitpat8.fff" expr="(UNITID==0) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0111000000000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b11100000000000000011) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1_hitpat8.fff" expr="(UNITID==1) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1011100100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b01110000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2_hitpat8.fff" expr="(UNITID==2) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1101100110001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3_hitpat8.fff" expr="(UNITID==3) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1110000000001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000111) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4_hitpat8.fff" expr="(UNITID==4) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110011100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00111000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5_hitpat8.fff" expr="(UNITID==5) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000101100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00011111000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6_hitpat8.fff" expr="(UNITID==6) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000110111000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000011100000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7_hitpat8.fff" expr="(UNITID==7) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110111011000100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8_hitpat8.fff" expr="(UNITID==8) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0010001101110110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9_hitpat8.fff" expr="(UNITID==9) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000001110110000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000001110000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10_hitpat8.fff" expr="(UNITID==10) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011010000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000111110000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11_hitpat8.fff" expr="(UNITID==11) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011100110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000111000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12_hitpat8.fff" expr="(UNITID==12) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000000000111) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000001110) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13_hitpat8.fff" expr="(UNITID==13) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000110011011) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14_hitpat8.fff" expr="(UNITID==14) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000010011101) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000011100000) == (b00000000000000000000)))"
fselect infile="ae703029010hxd_2_wel.sff" outfile="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0.fff
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
435463 435253 0 210 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
435463 435253 0 210 0 0 0
in 71212. seconds
Spectrum has 435253 counts for 6.112 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0.fff
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Total Good Bad: Region Time Phase Grade Cut
435463 435253 0 210 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
435463 435253 0 210 0 0 0
in 71212. seconds
Spectrum has 435253 counts for 6.112 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
181108 181027 0 81 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
181108 181027 0 81 0 0 0
in 71212. seconds
Spectrum has 181027 counts for 2.542 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_0_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
181108 181027 0 81 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
181108 181027 0 81 0 0 0
in 71212. seconds
Spectrum has 181027 counts for 2.542 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1.fff
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Total Good Bad: Region Time Phase Grade Cut
453484 453263 0 221 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
453484 453263 0 221 0 0 0
in 71212. seconds
Spectrum has 453263 counts for 6.365 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1.fff
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Total Good Bad: Region Time Phase Grade Cut
453484 453263 0 221 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
453484 453263 0 221 0 0 0
in 71212. seconds
Spectrum has 453263 counts for 6.365 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
202346 202252 0 94 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
202346 202252 0 94 0 0 0
in 71212. seconds
Spectrum has 202252 counts for 2.840 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
202346 202252 0 94 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
202346 202252 0 94 0 0 0
in 71212. seconds
Spectrum has 202252 counts for 2.840 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
561301 559729 0 1572 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
561301 559729 0 1572 0 0 0
in 71212. seconds
Spectrum has 559729 counts for 7.860 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
561301 559729 0 1572 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
561301 559729 0 1572 0 0 0
in 71212. seconds
Spectrum has 559729 counts for 7.860 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
247960 247239 0 721 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
247960 247239 0 721 0 0 0
in 71212. seconds
Spectrum has 247239 counts for 3.472 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
247960 247239 0 721 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
247960 247239 0 721 0 0 0
in 71212. seconds
Spectrum has 247239 counts for 3.472 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
421364 421182 0 182 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
421364 421182 0 182 0 0 0
in 71212. seconds
Spectrum has 421182 counts for 5.914 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
421364 421182 0 182 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
421364 421182 0 182 0 0 0
in 71212. seconds
Spectrum has 421182 counts for 5.914 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
179440 179368 0 72 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
179440 179368 0 72 0 0 0
in 71212. seconds
Spectrum has 179368 counts for 2.519 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
179440 179368 0 72 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
179440 179368 0 72 0 0 0
in 71212. seconds
Spectrum has 179368 counts for 2.519 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
433919 433731 0 188 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
433919 433731 0 188 0 0 0
in 71212. seconds
Spectrum has 433731 counts for 6.091 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
433919 433731 0 188 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
433919 433731 0 188 0 0 0
in 71212. seconds
Spectrum has 433731 counts for 6.091 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
176436 176373 0 63 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
176436 176373 0 63 0 0 0
in 71212. seconds
Spectrum has 176373 counts for 2.477 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
176436 176373 0 63 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
176436 176373 0 63 0 0 0
in 71212. seconds
Spectrum has 176373 counts for 2.477 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
428201 427977 0 224 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
428201 427977 0 224 0 0 0
in 71212. seconds
Spectrum has 427977 counts for 6.010 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
428201 427977 0 224 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
428201 427977 0 224 0 0 0
in 71212. seconds
Spectrum has 427977 counts for 6.010 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
178774 178697 0 77 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
178774 178697 0 77 0 0 0
in 71212. seconds
Spectrum has 178697 counts for 2.509 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
178774 178697 0 77 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
178774 178697 0 77 0 0 0
in 71212. seconds
Spectrum has 178697 counts for 2.509 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
405955 405767 0 188 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
405955 405767 0 188 0 0 0
in 71212. seconds
Spectrum has 405767 counts for 5.698 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
405955 405767 0 188 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
405955 405767 0 188 0 0 0
in 71212. seconds
Spectrum has 405767 counts for 5.698 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
171984 171908 0 76 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
171984 171908 0 76 0 0 0
in 71212. seconds
Spectrum has 171908 counts for 2.414 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
171984 171908 0 76 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
171984 171908 0 76 0 0 0
in 71212. seconds
Spectrum has 171908 counts for 2.414 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
676261 674336 0 1925 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
676261 674336 0 1925 0 0 0
in 71212. seconds
Spectrum has 674336 counts for 9.469 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
676261 674336 0 1925 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
676261 674336 0 1925 0 0 0
in 71212. seconds
Spectrum has 674336 counts for 9.469 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
274902 274076 0 826 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
274902 274076 0 826 0 0 0
in 71212. seconds
Spectrum has 274076 counts for 3.849 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
274902 274076 0 826 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
274902 274076 0 826 0 0 0
in 71212. seconds
Spectrum has 274076 counts for 3.849 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
585426 583754 0 1672 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
585426 583754 0 1672 0 0 0
in 71212. seconds
Spectrum has 583754 counts for 8.197 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
585426 583754 0 1672 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
585426 583754 0 1672 0 0 0
in 71212. seconds
Spectrum has 583754 counts for 8.197 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
247651 246922 0 729 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
247651 246922 0 729 0 0 0
in 71212. seconds
Spectrum has 246922 counts for 3.467 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
247651 246922 0 729 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
247651 246922 0 729 0 0 0
in 71212. seconds
Spectrum has 246922 counts for 3.467 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
378539 378386 0 153 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
378539 378386 0 153 0 0 0
in 71212. seconds
Spectrum has 378386 counts for 5.314 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
378539 378386 0 153 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
378539 378386 0 153 0 0 0
in 71212. seconds
Spectrum has 378386 counts for 5.314 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
166010 165939 0 71 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
166010 165939 0 71 0 0 0
in 71212. seconds
Spectrum has 165939 counts for 2.330 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
166010 165939 0 71 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
166010 165939 0 71 0 0 0
in 71212. seconds
Spectrum has 165939 counts for 2.330 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
385499 385341 0 158 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
385499 385341 0 158 0 0 0
in 71212. seconds
Spectrum has 385341 counts for 5.411 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
385499 385341 0 158 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
385499 385341 0 158 0 0 0
in 71212. seconds
Spectrum has 385341 counts for 5.411 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
165305 165247 0 58 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
165305 165247 0 58 0 0 0
in 71212. seconds
Spectrum has 165247 counts for 2.320 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
165305 165247 0 58 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
165305 165247 0 58 0 0 0
in 71212. seconds
Spectrum has 165247 counts for 2.320 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
451283 451082 0 201 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
451283 451082 0 201 0 0 0
in 71212. seconds
Spectrum has 451082 counts for 6.334 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
451283 451082 0 201 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
451283 451082 0 201 0 0 0
in 71212. seconds
Spectrum has 451082 counts for 6.334 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
187668 187579 0 89 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
187668 187579 0 89 0 0 0
in 71212. seconds
Spectrum has 187579 counts for 2.634 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
187668 187579 0 89 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
187668 187579 0 89 0 0 0
in 71212. seconds
Spectrum has 187579 counts for 2.634 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
410493 410324 0 169 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
410493 410324 0 169 0 0 0
in 71212. seconds
Spectrum has 410324 counts for 5.762 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
410493 410324 0 169 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
410493 410324 0 169 0 0 0
in 71212. seconds
Spectrum has 410324 counts for 5.762 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
175769 175694 0 75 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
175769 175694 0 75 0 0 0
in 71212. seconds
Spectrum has 175694 counts for 2.467 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
175769 175694 0 75 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
175769 175694 0 75 0 0 0
in 71212. seconds
Spectrum has 175694 counts for 2.467 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
550799 549154 0 1645 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
550799 549154 0 1645 0 0 0
in 71212. seconds
Spectrum has 549154 counts for 7.712 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
550799 549154 0 1645 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
550799 549154 0 1645 0 0 0
in 71212. seconds
Spectrum has 549154 counts for 7.712 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
242753 242020 0 733 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
242753 242020 0 733 0 0 0
in 71212. seconds
Spectrum has 242020 counts for 3.399 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
242753 242020 0 733 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
242753 242020 0 733 0 0 0
in 71212. seconds
Spectrum has 242020 counts for 3.399 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
408639 408452 0 187 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
408639 408452 0 187 0 0 0
in 71212. seconds
Spectrum has 408452 counts for 5.736 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
408639 408452 0 187 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
408639 408452 0 187 0 0 0
in 71212. seconds
Spectrum has 408452 counts for 5.736 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
171413 171325 0 88 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
171413 171325 0 88 0 0 0
in 71212. seconds
Spectrum has 171325 counts for 2.406 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
171413 171325 0 88 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
171413 171325 0 88 0 0 0
in 71212. seconds
Spectrum has 171325 counts for 2.406 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
388798 388598 0 200 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
388798 388598 0 200 0 0 0
in 71212. seconds
Spectrum has 388598 counts for 5.457 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
388798 388598 0 200 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
388798 388598 0 200 0 0 0
in 71212. seconds
Spectrum has 388598 counts for 5.457 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_hitpat8_slow.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
167124 167037 0 87 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
167124 167037 0 87 0 0 0
in 71212. seconds
Spectrum has 167037 counts for 2.346 counts/sec
... written the PHA data Extension
extractor filename="ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_hitpat8_fast.pha" timefile="ae703029010_hxdmkgainhist_tmp/ae703029010_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: ae703029010_hxdmkgainhist_tmp/tmp_ae703029010_15_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
167124 167037 0 87 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
167124 167037 0 87 0 0 0
in 71212. seconds
Spectrum has 167037 counts for 2.346 counts/sec
... written the PHA data Extension
rbnpha infile="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_hitpat8_slow.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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="ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_gti_0_hitpat8_fast.pha" outfile="ae703029010_hxdmkgainhist_tmp/ae703029010_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 14:01:57 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.542 +/- 5.9747E-03
Net count rate (cts/s) for file 2 2.542 +/- 5.9747E-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 = 624409.0 using 168 PHA bins.
Reduced chi-squared = 3902.556 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16771.68 using 168 PHA bins.
Reduced chi-squared = 104.8230 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8493.56 -3 82.06 16.25 0.1670 1.067
0.6557 82.49 16.00 1.057
1758.83 -4 72.60 7.677 0.1030 0.8755
0.4622 73.92 8.216 0.8842
1705.41 -3 75.38 13.19 0.1503 0.9961
0.6458 76.59 16.87 0.9942
891.978 0 75.43 11.01 0.1642 0.9918
0.6559 75.74 9.101 0.9920
815.970 -1 75.69 9.962 0.1573 0.9906
0.6719 76.42 13.72 0.9917
650.935 -2 75.85 9.653 0.1482 1.009
0.7302 76.94 9.707 1.009
635.193 0 75.82 9.621 0.1497 1.009
0.7317 76.97 10.85 1.009
624.038 -1 75.77 9.766 0.1544 1.011
0.7361 76.90 10.59 1.012
605.833 -2 75.85 9.832 0.1568 1.027
0.7824 77.00 10.72 1.028
593.178 -2 75.92 9.823 0.1570 1.039
0.8237 77.08 10.69 1.040
588.469 -3 76.10 9.871 0.1585 1.073
0.9392 77.31 10.74 1.073
573.042 -4 76.17 9.901 0.1593 1.085
0.9978 77.39 10.75 1.085
571.915 -5 76.18 9.905 0.1594 1.085
1.002 77.39 10.76 1.086
571.914 -6 76.18 9.905 0.1594 1.085
1.002 77.39 10.76 1.086
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.09E-07 | 0.00 0.00 -0.36 0.64 -0.30 0.00 0.00 0.61
1.14E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
6.28E-06 | 0.00 0.01 -0.93 -0.23 0.12 0.00 0.04 -0.24
1.38E-03 | 0.02 -0.05 0.03 -0.06 -0.29 0.03 0.95 -0.06
1.83E-03 | -0.04 -0.04 0.02 0.22 0.90 -0.04 0.30 0.22
4.68E-02 | 0.76 0.65 0.01 0.01 0.04 -0.05 0.04 0.01
7.08E-02 | 0.39 -0.40 0.00 0.01 0.05 0.83 -0.04 0.01
5.55E-02 | 0.52 -0.65 -0.01 -0.01 -0.01 -0.56 -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 76.1828 +/- 0.229620 1
2 2 1 gaussian Sigma keV 9.90545 +/- 0.232264 1
3 3 1 gaussian norm 0.159388 +/- 0.350847E-02 1
4 4 2 powerlaw PhoIndex 1.08463 +/- 0.107218E-01 1
5 5 2 powerlaw norm 1.00228 +/- 0.429134E-01 1
6 6 3 gaussian LineE keV 77.3931 +/- 0.256650 2
7 7 3 gaussian Sigma keV 10.7556 +/- 0.408527E-01 2
8 3 3 gaussian norm 0.159388 = par 3 2
9 8 4 powerlaw PhoIndex 1.08609 +/- 0.103003E-01 2
10 5 4 powerlaw norm 1.00228 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 571.9138 using 168 PHA bins.
Reduced chi-squared = 3.574461 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 ( 3.425) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.425) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9481 photons ( 1.1224E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9432 photons ( 1.1195E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:01:57 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.112 +/- 9.2644E-03
Net count rate (cts/s) for file 2 6.112 +/- 9.2644E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.570 +/- 1.1024E-02( 58.4% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.570 +/- 1.1024E-02( 58.4% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.0388155E+07 using 198 PHA bins.
Reduced chi-squared = 54674.50 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 86130.30 using 198 PHA bins.
Reduced chi-squared = 453.3174 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
48114.8 -3 116.3 18.93 0.3785 2.850
0.1548 108.8 18.93 2.785
24038.9 -2 105.5 19.21 1.386 8.446
5.5259E-02 109.6 19.35 6.602
22812.0 -1 107.3 19.30 1.367 9.219
2.0976E-02 109.8 19.36 8.328
22456.5 -1 108.3 19.35 1.370 9.382
3.3125E-03 109.9 19.36 9.303
22374.1 -1 108.9 19.36 1.375 9.487
1.3129E-03 110.0 19.37 9.443
22034.2 -1 109.3 19.36 1.367 9.496
1.1232E-04 110.1 19.37 9.493
21901.7 -1 109.6 19.37 1.365 9.499
9.0746E-06 110.2 19.37 9.497
21714.0 -1 109.8 19.37 1.361 9.500
2.4171E-06 110.3 19.37 9.500
21497.0 -1 110.0 19.37 1.355 9.500
7.3375E-07 110.4 19.37 9.500
21359.9 -1 110.2 19.37 1.352 9.500
2.9391E-07 110.6 19.37 9.500
21226.9 -1 110.3 19.37 1.348 9.500
7.5092E-08 110.7 19.37 9.500
20517.1 -1 110.8 19.37 1.326 3.313
8.0951E-09 111.0 19.37 9.500
18884.8 -2 111.4 19.37 1.252 7.374
6024. 111.4 19.37 9.500
17979.6 -1 112.7 19.37 1.225 9.432
1514. 112.1 19.37 9.500
17049.5 0 113.7 19.37 1.187 9.482
628.7 113.0 19.37 9.500
16413.3 0 114.6 19.37 1.159 9.497
105.4 113.8 19.37 9.500
15989.4 0 115.4 19.37 1.137 9.499
36.15 114.5 19.37 9.500
15707.9 0 116.1 19.37 1.120 9.500
0.5999 115.0 19.37 9.500
15528.0 0 116.6 19.37 1.107 9.500
3.2346E-02 115.4 19.37 9.500
15413.1 0 117.1 19.37 1.097 9.500
1.4380E-02 115.7 19.37 9.500
15340.1 0 117.4 19.37 1.088 9.500
5.2848E-03 115.9 19.37 9.500
15292.4 0 117.7 19.37 1.082 9.500
2.3010E-03 116.1 19.37 9.500
15263.7 0 117.9 19.37 1.077 9.500
4.2593E-04 116.2 19.37 9.500
15243.2 0 118.1 19.37 1.073 9.500
1.4923E-04 116.4 19.37 9.500
15231.4 0 118.2 19.37 1.070 9.500
6.7931E-06 116.4 19.37 9.500
15222.2 0 118.3 19.37 1.067 9.500
2.2825E-06 116.5 19.37 9.500
15194.4 0 118.4 19.37 1.063 9.500
9.2542E-09 116.5 19.33 9.500
15177.1 0 118.4 19.37 1.061 9.500
3.3705E-09 116.5 19.31 9.500
15163.6 0 118.5 19.37 1.059 9.500
4.6391E-10 116.4 19.29 9.500
15152.9 0 118.5 19.37 1.057 9.500
1.0398E-10 116.4 19.27 9.500
15144.1 0 118.5 19.37 1.056 9.500
1.4722E-11 116.4 19.26 9.500
15136.9 0 118.6 19.37 1.054 9.500
3.6372E-12 116.4 19.24 9.500
15131.0 0 118.6 19.37 1.053 9.500
8.8166E-13 116.4 19.23 9.500
15126.0 0 118.6 19.37 1.052 9.500
1.9568E-13 116.3 19.22 9.500
15121.8 0 118.6 19.37 1.051 9.500
2.4773E-14 116.3 19.21 9.500
Fit parameter 5 has pegged
15117.1 0 118.5 19.37 1.048 9.500
0.000 116.3 19.10 9.500
Fit parameter 5 has pegged
15114.0 0 118.5 19.37 1.047 9.500
0.000 116.3 19.10 9.500
Fit parameter 5 has pegged
15111.3 0 118.5 19.37 1.046 9.500
0.000 116.3 19.09 9.500
Fit parameter 5 has pegged
15108.8 0 118.6 19.37 1.046 9.500
0.000 116.3 19.09 9.500
Fit parameter 5 has pegged
15106.6 0 118.6 19.37 1.045 9.500
0.000 116.3 19.09 9.500
Fit parameter 5 has pegged
15104.5 0 118.6 19.37 1.044 9.500
0.000 116.3 19.09 9.500
Fit parameter 5 has pegged
15102.7 0 118.7 19.37 1.043 9.500
0.000 116.3 19.08 9.500
Fit parameter 5 has pegged
15100.9 0 118.7 19.37 1.043 9.500
0.000 116.3 19.08 9.500
Fit parameter 5 has pegged
15099.3 0 118.7 19.37 1.042 9.500
0.000 116.3 19.08 9.500
Fit parameter 5 has pegged
15097.9 0 118.7 19.37 1.042 9.500
0.000 116.4 19.08 9.500
Fit parameter 5 has pegged
15096.5 0 118.7 19.37 1.041 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
15095.3 0 118.8 19.37 1.041 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
15094.1 0 118.8 19.37 1.040 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
15093.1 0 118.8 19.37 1.040 9.500
0.000 116.4 19.07 9.500
Fit parameter 5 has pegged
15092.1 0 118.8 19.37 1.039 9.500
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
15091.2 0 118.8 19.37 1.039 9.500
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
15090.4 0 118.8 19.37 1.038 9.500
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
15089.6 0 118.8 19.37 1.038 9.500
0.000 116.4 19.06 9.500
Fit parameter 5 has pegged
15088.9 0 118.9 19.37 1.038 9.500
0.000 116.4 19.05 9.500
Fit parameter 5 has pegged
15088.2 0 118.9 19.37 1.037 9.500
0.000 116.4 19.05 9.500
Fit parameter 5 has pegged
15087.6 0 118.9 19.37 1.037 9.500
0.000 116.4 19.05 9.500
Fit parameter 5 has pegged
15086.9 0 118.9 19.37 1.037 9.500
0.000 116.4 19.04 9.500
Fit parameter 5 has pegged
15086.3 0 118.9 19.37 1.036 9.500
0.000 116.4 19.04 9.500
Fit parameter 5 has pegged
15085.8 0 118.9 19.37 1.036 9.500
0.000 116.5 19.04 9.500
Fit parameter 5 has pegged
15085.4 0 118.9 19.37 1.036 9.500
0.000 116.5 19.04 9.500
Fit parameter 5 has pegged
15084.8 0 118.9 19.37 1.036 9.500
0.000 116.5 19.03 9.500
Fit parameter 5 has pegged
15084.5 0 118.9 19.37 1.035 9.500
0.000 116.5 19.03 9.500
Fit parameter 5 has pegged
15084.1 0 119.0 19.37 1.035 9.500
0.000 116.5 19.03 9.500
Fit parameter 5 has pegged
15083.6 0 119.0 19.37 1.035 9.500
0.000 116.5 19.03 9.500
Fit parameter 5 has pegged
15083.3 0 119.0 19.37 1.035 9.500
0.000 116.5 19.02 9.500
Fit parameter 5 has pegged
15082.9 0 119.0 19.37 1.034 9.500
0.000 116.5 19.02 9.500
Fit parameter 5 has pegged
15082.5 0 119.0 19.37 1.034 9.500
0.000 116.5 19.02 9.500
Fit parameter 5 has pegged
15082.3 0 119.0 19.37 1.034 9.500
0.000 116.5 19.02 9.500
Fit parameter 5 has pegged
15082.0 0 119.0 19.37 1.034 9.500
0.000 116.5 19.01 9.500
Fit parameter 5 has pegged
15081.7 0 119.0 19.37 1.034 9.500
0.000 116.5 19.01 9.500
Fit parameter 5 has pegged
15081.4 0 119.0 19.37 1.033 9.500
0.000 116.5 19.01 9.500
Fit parameter 5 has pegged
15081.2 0 119.0 19.37 1.033 9.500
0.000 116.5 19.01 9.500
Fit parameter 5 has pegged
15081.0 0 119.0 19.37 1.033 9.500
0.000 116.5 19.00 9.500
Fit parameter 5 has pegged
15080.7 0 119.0 19.37 1.033 9.500
0.000 116.5 19.00 9.500
Fit parameter 5 has pegged
15080.5 0 119.0 19.37 1.033 9.500
0.000 116.6 19.00 9.500
Fit parameter 5 has pegged
15080.3 0 119.0 19.37 1.033 9.500
0.000 116.6 19.00 9.500
Fit parameter 5 has pegged
15080.1 0 119.0 19.37 1.033 9.500
0.000 116.6 18.99 9.500
Fit parameter 5 has pegged
15079.9 0 119.0 19.37 1.032 9.500
0.000 116.6 18.99 9.500
Fit parameter 5 has pegged
15079.7 0 119.0 19.37 1.032 9.500
0.000 116.6 18.99 9.500
Fit parameter 5 has pegged
15079.5 0 119.1 19.37 1.032 9.500
0.000 116.6 18.99 9.500
Fit parameter 5 has pegged
15079.3 0 119.1 19.37 1.032 9.500
0.000 116.6 18.99 9.500
Fit parameter 5 has pegged
15079.2 0 119.1 19.37 1.032 9.500
0.000 116.6 18.98 9.500
Fit parameter 5 has pegged
15079.1 0 119.1 19.37 1.032 9.500
0.000 116.6 18.98 9.500
Fit parameter 5 has pegged
15079.0 0 119.1 19.37 1.032 9.500
0.000 116.6 18.98 9.500
Fit parameter 5 has pegged
15078.8 0 119.1 19.37 1.032 9.500
0.000 116.6 18.98 9.500
Fit parameter 5 has pegged
15078.8 0 119.1 19.37 1.031 9.500
0.000 116.6 18.98 9.500
Fit parameter 5 has pegged
15078.6 0 119.1 19.37 1.031 9.500
0.000 116.6 18.98 9.500
Fit parameter 5 has pegged
15078.5 0 119.1 19.37 1.031 9.500
0.000 116.6 18.97 9.500
Fit parameter 5 has pegged
15078.3 0 119.1 19.37 1.031 9.500
0.000 116.6 18.97 9.500
Fit parameter 5 has pegged
15078.3 0 119.1 19.37 1.031 9.500
0.000 116.6 18.97 9.500
15078.1 0 119.1 19.37 1.031 9.500
0.000 116.6 18.98 9.500
Fit parameter 5 has pegged
15078.1 0 119.1 19.37 1.031 9.500
0.000 116.6 18.97 9.500
Fit parameter 5 has pegged
15078.0 0 119.1 19.37 1.031 9.500
0.000 116.6 18.97 9.500
Fit parameter 5 has pegged
15077.9 0 119.1 19.37 1.031 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
15077.8 0 119.1 19.37 1.031 9.500
0.000 116.7 18.97 9.500
Fit parameter 5 has pegged
15077.7 0 119.1 19.37 1.030 9.500
0.000 116.7 18.96 9.500
Fit parameter 5 has pegged
15077.6 0 119.1 19.37 1.030 9.500
0.000 116.7 18.96 9.500
Fit parameter 5 has pegged
15077.5 0 119.1 19.37 1.030 9.500
0.000 116.7 18.96 9.500
Fit parameter 5 has pegged
15077.5 0 119.1 19.37 1.030 9.500
0.000 116.7 18.96 9.500
Fit parameter 5 has pegged
15077.4 0 119.1 19.37 1.030 9.500
0.000 116.7 18.96 9.500
Fit parameter 5 has pegged
15077.3 0 119.1 19.37 1.030 9.500
0.000 116.7 18.96 9.500
Fit parameter 5 has pegged
15077.3 0 119.1 19.37 1.030 9.500
0.000 116.7 18.96 9.500
Fit parameter 5 has pegged
15077.2 0 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
Fit parameter 5 has pegged
15077.2 1 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
Fit parameter 5 has pegged
15077.1 0 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
Fit parameter 5 has pegged
15077.1 0 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
Fit parameter 5 has pegged
15077.1 0 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
Fit parameter 5 has pegged
15077.0 0 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
Fit parameter 5 has pegged
15077.0 1 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
Fit parameter 5 has pegged
15076.9 1 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
Fit parameter 5 has pegged
15076.9 2 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
Fit parameter 5 has pegged
15076.9 1 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
Fit parameter 5 has pegged
15076.9 3 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
15076.9 6 119.1 19.37 1.030 9.500
0.000 116.7 18.95 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.44E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.49E-02 | 0.26 0.01 0.01 -0.94 -0.21
1.91E-02 | -0.96 -0.06 0.01 -0.24 -0.09
2.49E+00 | -0.06 0.99 0.00 -0.03 0.08
2.72E-01 | -0.03 -0.09 0.00 -0.23 0.97
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 119.119 +/- 0.171707 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.57063 1
3 3 1 gaussian norm 1.02961 +/- 0.504098E-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 116.686 +/- 0.174529 2
7 7 3 gaussian Sigma keV 18.9482 +/- 0.521797 2
8 3 3 gaussian norm 1.02961 = 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 = 15076.90 using 198 PHA bins.
Reduced chi-squared = 79.35211 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 ( 76.532) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 76.532) > 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 0.8630 photons ( 1.7253E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8347 photons ( 1.6451E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:01:58 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.542 +/- 5.9747E-03
Net count rate (cts/s) for file 2 2.542 +/- 5.9747E-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 = 723744.5 using 168 PHA bins.
Reduced chi-squared = 4523.403 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 25009.68 using 168 PHA bins.
Reduced chi-squared = 156.3105 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
19774.0 -3 85.37 13.83 0.1220 1.141
0.7489 85.60 13.13 1.126
2901.56 -4 70.19 16.18 0.1806 1.047
0.9298 72.58 15.44 1.055
1591.68 -2 81.18 6.812 9.0955E-02 1.075
1.013 80.27 8.220 1.073
1586.62 -2 77.25 14.95 0.1407 1.084
1.021 77.50 15.68 1.085
1302.14 -3 77.70 7.360 9.1068E-02 1.058
0.9660 79.02 6.504 1.060
701.526 -1 76.20 9.859 0.1302 1.063
0.9481 78.29 9.931 1.064
627.925 0 76.25 9.354 0.1372 1.064
0.9444 77.88 9.926 1.065
605.694 0 76.21 9.332 0.1418 1.065
0.9418 77.67 10.21 1.066
576.994 -1 76.06 9.808 0.1544 1.067
0.9360 77.35 10.69 1.068
573.657 -2 76.10 9.890 0.1586 1.071
0.9469 77.30 10.74 1.073
572.400 -3 76.16 9.890 0.1591 1.081
0.9853 77.37 10.75 1.082
571.949 -4 76.18 9.906 0.1594 1.085
1.001 77.39 10.76 1.086
571.914 -5 76.18 9.904 0.1594 1.085
1.002 77.39 10.75 1.086
571.913 -2 76.18 9.906 0.1594 1.085
1.002 77.39 10.76 1.086
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.09E-07 | 0.00 0.00 -0.36 0.64 -0.30 0.00 0.00 0.61
1.14E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
6.28E-06 | 0.00 0.01 -0.93 -0.23 0.12 0.00 0.04 -0.24
1.38E-03 | 0.02 -0.05 0.03 -0.06 -0.29 0.03 0.95 -0.06
1.83E-03 | -0.04 -0.04 0.02 0.22 0.90 -0.04 0.30 0.22
4.68E-02 | 0.76 0.65 0.01 0.01 0.04 -0.05 0.04 0.01
7.08E-02 | 0.39 -0.40 0.00 0.01 0.05 0.83 -0.04 0.01
5.55E-02 | 0.52 -0.65 -0.01 -0.01 -0.01 -0.56 -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 76.1826 +/- 0.229590 1
2 2 1 gaussian Sigma keV 9.90577 +/- 0.232245 1
3 3 1 gaussian norm 0.159391 +/- 0.350816E-02 1
4 4 2 powerlaw PhoIndex 1.08463 +/- 0.107208E-01 1
5 5 2 powerlaw norm 1.00228 +/- 0.429104E-01 1
6 6 3 gaussian LineE keV 77.3932 +/- 0.256635 2
7 7 3 gaussian Sigma keV 10.7558 +/- 0.408489E-01 2
8 3 3 gaussian norm 0.159391 = par 3 2
9 8 4 powerlaw PhoIndex 1.08610 +/- 0.102993E-01 2
10 5 4 powerlaw norm 1.00228 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 571.9134 using 168 PHA bins.
Reduced chi-squared = 3.574459 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 ( 3.425) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.425) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9481 photons ( 1.1224E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9432 photons ( 1.1195E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
104.8230
=====best line=====
76.1828 0.229620
=====best sigma=====
9.90545 0.232264
=====norm=====
0.159388 0.350847E-02
=====phoindx=====
1.08463 0.107218E-01
=====pow_norm=====
1.00228 0.429134E-01
=====best line=====
77.3931 0.256650
=====best sigma=====
10.7556 0.408527E-01
=====norm=====
0.159388 par
=====phoindx=====
1.08609 0.103003E-01
=====pow_norm=====
1.00228 par
=====redu_chi=====
3.574461
=====area_flux=====
0.9481
=====area_flux_f=====
0.9432
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 0 1 640 2000 1218.9248 0 0.159388 0.350847E-02 9.90545 0.232264 1.08463 0.107218E-01 1.00228 0.429134E-01 0.9481 640 2000 1238.2896 0 0.159388 0.350847E-02 10.7556 0.408527E-01 1.08609 0.103003E-01 1.00228 0.429134E-01 0.9432 3.574461 1
=====redu_chi=====
453.3174
=====best line=====
119.119 0.171707
=====best sigma=====
19.3655 1.57063
=====norm=====
1.02961 0.504098E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.686 0.174529
=====best sigma=====
18.9482 0.521797
=====norm=====
1.02961 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
79.35211
=====area_flux=====
0.8630
=====area_flux_f=====
0.8347
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 0 1 1600 3200 1905.904 0 1.02961 0.504098E-02 309.848 25.13008 9.50000 -1.00000 0.00000 -1.00000 0.8630 1600 3200 1866.976 0 1.02961 0.504098E-02 303.1712 8.348752 9.50000 -1.00000 0.00000 -1.00000 0.8347 79.35211 1
=====redu_chi=====
156.3105
=====best line=====
76.1826 0.229590
=====best sigma=====
9.90577 0.232245
=====norm=====
0.159391 0.350816E-02
=====phoindx=====
1.08463 0.107208E-01
=====pow_norm=====
1.00228 0.429104E-01
=====best line=====
77.3932 0.256635
=====best sigma=====
10.7558 0.408489E-01
=====norm=====
0.159391 par
=====phoindx=====
1.08610 0.102993E-01
=====pow_norm=====
1.00228 par
=====redu_chi=====
3.574459
=====area_flux=====
0.9481
=====area_flux_f=====
0.9432
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 0 1 640 2000 1218.9216 0 0.159391 0.350816E-02 9.90577 0.232245 1.08463 0.107208E-01 1.00228 0.429104E-01 0.9481 640 2000 1238.2912 0 0.159391 0.350816E-02 10.7558 0.408489E-01 1.08610 0.102993E-01 1.00228 0.429104E-01 0.9432 3.574459 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:01:58 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.840 +/- 6.3153E-03
Net count rate (cts/s) for file 2 2.840 +/- 6.3153E-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 = 549576.8 using 168 PHA bins.
Reduced chi-squared = 3434.855 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13028.27 using 168 PHA bins.
Reduced chi-squared = 81.42668 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1884.28 -3 83.13 15.72 0.1632 0.9014
0.4678 83.89 15.20 0.8985
1257.72 -3 75.18 7.756 8.2954E-02 0.8193
0.3588 77.55 8.453 0.8225
1239.88 -2 77.53 12.09 0.1414 0.8458
0.3830 79.98 16.46 0.8465
1018.42 -1 77.43 9.585 0.1286 0.8453
0.3887 77.55 6.782 0.8473
549.026 -2 77.44 8.758 0.1351 0.8635
0.4153 78.74 9.508 0.8636
548.665 -1 77.32 9.315 0.1427 0.8656
0.4177 79.41 11.19 0.8667
501.102 -2 77.45 9.223 0.1429 0.8814
0.4448 79.44 9.969 0.8819
488.995 -2 77.48 9.368 0.1458 0.8941
0.4685 79.61 10.55 0.8948
481.174 -3 77.68 9.371 0.1470 0.9292
0.5369 79.81 10.15 0.9289
462.351 -4 77.74 9.451 0.1487 0.9421
0.5727 79.89 10.30 0.9427
460.865 -5 77.76 9.430 0.1485 0.9420
0.5750 79.89 10.24 0.9431
460.859 -6 77.76 9.441 0.1486 0.9420
0.5751 79.89 10.25 0.9432
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.21E-07 | 0.00 0.00 -0.31 0.59 -0.48 0.00 0.00 0.56
1.06E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.72E-06 | 0.00 0.01 -0.95 -0.17 0.17 0.00 0.03 -0.19
6.76E-04 | 0.03 0.01 -0.01 -0.37 -0.85 0.03 0.11 -0.35
1.79E-03 | 0.00 -0.07 0.03 0.05 0.09 0.01 0.99 0.05
4.89E-02 | 0.78 0.62 0.01 0.01 0.02 -0.08 0.04 0.01
6.67E-02 | 0.33 -0.30 0.00 0.01 0.02 0.89 -0.03 0.01
5.55E-02 | 0.53 -0.72 -0.01 0.00 -0.01 -0.44 -0.04 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.7568 +/- 0.229427 1
2 2 1 gaussian Sigma keV 9.44131 +/- 0.231725 1
3 3 1 gaussian norm 0.148583 +/- 0.335258E-02 1
4 4 2 powerlaw PhoIndex 0.941989 +/- 0.104233E-01 1
5 5 2 powerlaw norm 0.575124 +/- 0.239062E-01 1
6 6 3 gaussian LineE keV 79.8913 +/- 0.253741 2
7 7 3 gaussian Sigma keV 10.2513 +/- 0.451974E-01 2
8 3 3 gaussian norm 0.148583 = par 3 2
9 8 4 powerlaw PhoIndex 0.943199 +/- 0.100148E-01 2
10 5 4 powerlaw norm 0.575124 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 460.8591 using 168 PHA bins.
Reduced chi-squared = 2.880370 for 160 degrees of freedom
Null hypothesis probability = 6.244E-31
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.760) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.760) > 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 0.9786 photons ( 1.1760E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9743 photons ( 1.1758E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:01:58 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.365 +/- 9.4542E-03
Net count rate (cts/s) for file 2 6.365 +/- 9.4542E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.525 +/- 1.1369E-02( 55.4% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.525 +/- 1.1369E-02( 55.4% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 8897325. using 198 PHA bins.
Reduced chi-squared = 46828.03 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 85049.71 using 198 PHA bins.
Reduced chi-squared = 447.6301 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
50878.6 -3 111.4 18.84 0.4066 2.853
0.1779 103.9 18.76 2.792
39524.4 -3 95.64 19.23 1.713 7.742
7.1314E-02 97.40 19.17 8.447
38171.0 -1 96.70 19.37 1.689 9.012
1.9995E-02 97.93 19.31 9.486
37168.9 -1 97.94 19.37 1.668 2.651
5.4572E-03 98.73 19.35 9.497
37165.9 3 97.94 19.37 1.668 2.500
1.0658E-02 98.73 19.35 9.500
37135.7 2 97.95 19.37 1.668 2.157
2.9151E-02 98.74 19.36 9.500
37054.2 1 97.97 19.37 1.665 1.947
5.9298E-02 98.76 19.36 9.500
36407.2 0 98.21 19.37 1.639 1.675
0.1402 98.95 19.36 9.500
33760.2 0 99.82 19.37 1.543 1.660
0.1561 100.4 19.37 9.500
33034.4 -1 101.6 19.37 1.571 1.699
0.1718 102.1 19.37 9.500
31944.6 -1 103.0 19.37 1.561 1.758
0.1671 103.4 19.37 9.500
30497.3 -1 104.3 19.37 1.536 1.843
0.1585 104.7 19.37 9.500
29230.3 -1 105.4 19.37 1.516 2.020
0.1087 105.8 19.37 9.500
27833.0 -1 106.5 19.37 1.491 2.233
0.2213 106.9 19.37 9.500
26660.8 -1 107.4 19.37 1.472 2.564
0.5507 107.9 19.37 9.500
25319.5 -1 108.4 19.37 1.447 5.139
0.1204 108.9 19.37 9.500
24208.8 -1 109.2 19.37 1.427 9.321
3.3407E-02 109.8 19.37 9.500
21173.5 0 110.5 19.37 1.339 9.479
1.6974E-03 111.1 19.37 9.500
17380.2 0 113.5 19.37 1.234 9.499
2.2221E-04 113.9 19.37 9.500
16249.2 0 114.8 19.37 1.201 9.500
9.2053E-05 115.0 19.37 9.500
15468.4 0 115.9 19.37 1.175 9.500
2.2353E-05 115.9 19.37 9.500
14951.1 0 116.8 19.37 1.154 9.500
4.1654E-06 116.7 19.37 9.500
14624.9 0 117.6 19.37 1.139 9.500
1.8069E-06 117.2 19.37 9.500
14411.6 0 118.2 19.37 1.126 9.500
6.0286E-07 117.6 19.37 9.500
14275.2 0 118.6 19.37 1.117 9.500
2.9600E-07 117.9 19.37 9.500
14183.2 0 119.0 19.37 1.109 9.500
1.4167E-07 118.1 19.37 9.500
14086.4 0 119.4 19.37 1.098 9.500
2.1029E-08 118.5 19.37 9.500
14061.6 0 119.6 19.37 1.094 9.500
1.0244E-08 118.6 19.37 9.500
14044.7 0 119.7 19.37 1.091 9.500
4.8474E-09 118.7 19.37 9.500
14033.3 0 119.8 19.37 1.089 9.500
2.1273E-09 118.7 19.37 9.500
14025.7 0 119.8 19.37 1.087 9.500
7.6812E-10 118.8 19.37 9.500
14020.3 0 119.9 19.37 1.086 9.500
8.7515E-11 118.8 19.37 9.500
14016.6 0 119.9 19.37 1.085 9.500
2.0937E-12 118.8 19.37 9.500
14011.5 0 119.9 19.37 1.084 9.500
7.6190E-13 118.8 19.37 9.500
14009.9 0 120.0 19.37 1.084 9.500
9.8555E-14 118.9 19.37 9.500
13992.5 0 120.0 19.37 1.081 9.500
1.3885E-15 118.8 19.36 9.500
Fit parameter 5 has pegged
13957.5 0 120.0 19.37 1.075 9.500
0.000 118.6 19.28 9.500
Fit parameter 5 has pegged
13956.0 0 119.9 19.37 1.074 9.500
0.000 118.5 19.29 9.500
Fit parameter 5 has pegged
13948.7 0 120.0 19.37 1.072 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13942.2 0 120.0 19.37 1.071 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13936.5 0 120.1 19.37 1.070 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13931.2 0 120.1 19.37 1.068 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13926.6 0 120.1 19.37 1.067 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13922.5 0 120.2 19.37 1.066 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13918.7 0 120.2 19.37 1.066 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13915.3 0 120.3 19.37 1.065 9.500
0.000 118.4 19.30 9.500
Fit parameter 5 has pegged
13912.3 0 120.3 19.37 1.064 9.500
0.000 118.4 19.30 9.500
Fit parameter 5 has pegged
13909.6 0 120.3 19.37 1.063 9.500
0.000 118.4 19.30 9.500
Fit parameter 5 has pegged
13907.1 0 120.4 19.37 1.062 9.500
0.000 118.4 19.30 9.500
Fit parameter 5 has pegged
13904.8 0 120.4 19.37 1.062 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13902.7 0 120.4 19.37 1.061 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13900.9 0 120.4 19.37 1.061 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13899.2 0 120.5 19.37 1.060 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13897.6 0 120.5 19.37 1.060 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13896.1 0 120.5 19.37 1.059 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13894.9 0 120.5 19.37 1.059 9.500
0.000 118.5 19.30 9.500
Fit parameter 5 has pegged
13893.7 0 120.6 19.37 1.058 9.500
0.000 118.5 19.29 9.500
Fit parameter 5 has pegged
13892.6 0 120.6 19.37 1.058 9.500
0.000 118.5 19.29 9.500
Fit parameter 5 has pegged
13891.6 0 120.6 19.37 1.057 9.500
0.000 118.5 19.29 9.500
Fit parameter 5 has pegged
13890.7 0 120.6 19.37 1.057 9.500
0.000 118.5 19.29 9.500
Fit parameter 5 has pegged
13889.7 0 120.6 19.37 1.057 9.500
0.000 118.5 19.29 9.500
Fit parameter 5 has pegged
13889.0 0 120.7 19.37 1.056 9.500
0.000 118.5 19.29 9.500
Fit parameter 5 has pegged
13888.3 0 120.7 19.37 1.056 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
13887.6 0 120.7 19.37 1.056 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
13887.1 0 120.7 19.37 1.056 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
13886.4 0 120.7 19.37 1.055 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
13886.0 0 120.7 19.37 1.055 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
13885.4 0 120.7 19.37 1.055 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
13885.0 0 120.7 19.37 1.055 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
13884.5 0 120.8 19.37 1.054 9.500
0.000 118.5 19.28 9.500
Fit parameter 5 has pegged
13884.2 0 120.8 19.37 1.054 9.500
0.000 118.5 19.27 9.500
Fit parameter 5 has pegged
13883.7 0 120.8 19.37 1.054 9.500
0.000 118.5 19.27 9.500
Fit parameter 5 has pegged
13883.4 0 120.8 19.37 1.054 9.500
0.000 118.5 19.27 9.500
Fit parameter 5 has pegged
13883.1 0 120.8 19.37 1.054 9.500
0.000 118.5 19.27 9.500
Fit parameter 5 has pegged
13882.8 0 120.8 19.37 1.053 9.500
0.000 118.5 19.27 9.500
Fit parameter 5 has pegged
13882.5 0 120.8 19.37 1.053 9.500
0.000 118.5 19.27 9.500
Fit parameter 5 has pegged
13882.2 0 120.8 19.37 1.053 9.500
0.000 118.5 19.26 9.500
Fit parameter 5 has pegged
13882.0 0 120.8 19.37 1.053 9.500
0.000 118.5 19.26 9.500
Fit parameter 5 has pegged
13881.8 0 120.8 19.37 1.053 9.500
0.000 118.5 19.26 9.500
Fit parameter 5 has pegged
13881.5 0 120.8 19.37 1.053 9.500
0.000 118.5 19.26 9.500
Fit parameter 5 has pegged
13881.3 0 120.8 19.37 1.053 9.500
0.000 118.6 19.26 9.500
Fit parameter 5 has pegged
13881.2 0 120.8 19.37 1.052 9.500
0.000 118.6 19.26 9.500
Fit parameter 5 has pegged
13881.0 0 120.8 19.37 1.052 9.500
0.000 118.6 19.26 9.500
Fit parameter 5 has pegged
13880.8 0 120.9 19.37 1.052 9.500
0.000 118.6 19.26 9.500
Fit parameter 5 has pegged
13880.7 0 120.9 19.37 1.052 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
13880.5 0 120.9 19.37 1.052 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
13880.3 0 120.9 19.37 1.052 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
13880.2 0 120.9 19.37 1.052 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
13880.0 0 120.9 19.37 1.052 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
13880.0 0 120.9 19.37 1.052 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
13879.8 0 120.9 19.37 1.052 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
13879.7 0 120.9 19.37 1.051 9.500
0.000 118.6 19.25 9.500
Fit parameter 5 has pegged
13879.7 0 120.9 19.37 1.051 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
13879.5 0 120.9 19.37 1.051 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
13879.4 0 120.9 19.37 1.051 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
13879.3 0 120.9 19.37 1.051 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
13879.2 0 120.9 19.37 1.051 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
13879.2 0 120.9 19.37 1.051 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
13879.1 0 120.9 19.37 1.051 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
13878.9 0 120.9 19.37 1.051 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
13878.9 0 120.9 19.37 1.051 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
13878.8 1 120.9 19.37 1.051 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
13878.8 0 120.9 19.37 1.051 9.500
0.000 118.6 19.23 9.500
13878.7 0 120.9 19.37 1.051 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
13878.7 0 120.9 19.37 1.051 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
13878.6 0 120.9 19.37 1.051 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
13878.5 0 120.9 19.37 1.050 9.500
0.000 118.6 19.24 9.500
Fit parameter 5 has pegged
13878.4 0 120.9 19.37 1.050 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
13878.4 1 120.9 19.37 1.050 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
13878.4 0 120.9 19.37 1.050 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
13878.3 0 120.9 19.37 1.050 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
13878.3 1 120.9 19.37 1.050 9.500
0.000 118.6 19.23 9.500
Fit parameter 5 has pegged
13878.3 4 120.9 19.37 1.050 9.500
0.000 118.6 19.23 9.500
13878.3 5 120.9 19.37 1.050 9.500
0.000 118.6 19.23 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.48E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.56E-02 | 0.26 0.00 0.01 -0.96 -0.11
1.93E-02 | -0.97 -0.05 0.01 -0.25 -0.04
2.88E+00 | -0.05 0.98 0.00 -0.03 0.17
9.15E-01 | 0.00 -0.17 0.00 -0.11 0.98
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 120.932 +/- 0.163439 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.67872 1
3 3 1 gaussian norm 1.05028 +/- 0.495464E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 118.632 +/- 0.170577 2
7 7 3 gaussian Sigma keV 19.2315 +/- 0.978038 2
8 3 3 gaussian norm 1.05028 = 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 = 13878.30 using 198 PHA bins.
Reduced chi-squared = 73.04369 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 70.448) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 70.448) > 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 0.9033 photons ( 1.8226E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8755 photons ( 1.7448E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:01:59 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.840 +/- 6.3153E-03
Net count rate (cts/s) for file 2 2.840 +/- 6.3153E-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 = 633575.2 using 168 PHA bins.
Reduced chi-squared = 3959.845 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 20974.71 using 168 PHA bins.
Reduced chi-squared = 131.0919 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2684.96 -3 85.74 13.32 0.1296 0.9486
0.5437 86.23 12.31 0.9418
1083.31 -4 73.53 12.78 0.1396 0.8778
0.4372 77.04 11.77 0.8810
1028.15 -3 81.24 9.418 0.1217 0.9542
0.5866 81.04 9.781 0.9516
880.390 -4 77.20 13.27 0.1510 0.9486
0.5897 79.78 13.05 0.9497
713.294 -5 79.24 9.023 0.1096 0.9295
0.5714 80.37 9.400 0.9310
707.046 -3 77.30 10.67 0.1506 0.9428
0.5760 79.84 13.83 0.9438
524.544 -4 78.20 9.713 0.1305 0.9334
0.5665 80.00 9.417 0.9347
471.166 -1 77.78 9.198 0.1434 0.9352
0.5626 79.95 10.57 0.9365
461.335 -2 77.70 9.482 0.1482 0.9371
0.5635 79.84 10.18 0.9383
460.928 -3 77.76 9.413 0.1483 0.9407
0.5718 79.89 10.26 0.9418
460.864 -4 77.75 9.446 0.1486 0.9420
0.5749 79.89 10.25 0.9431
460.860 -5 77.76 9.435 0.1485 0.9420
0.5751 79.89 10.25 0.9432
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.21E-07 | 0.00 0.00 -0.31 0.59 -0.48 0.00 0.00 0.56
1.06E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.73E-06 | 0.00 0.01 -0.95 -0.17 0.17 0.00 0.03 -0.19
6.76E-04 | 0.03 0.01 -0.01 -0.37 -0.85 0.03 0.12 -0.35
1.74E-03 | 0.00 -0.07 0.03 0.05 0.09 0.01 0.99 0.05
4.90E-02 | 0.78 0.62 0.01 0.01 0.02 -0.08 0.04 0.01
6.68E-02 | 0.33 -0.30 0.00 0.01 0.02 0.89 -0.03 0.01
5.56E-02 | 0.53 -0.72 -0.01 -0.01 -0.01 -0.44 -0.04 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.7597 +/- 0.229755 1
2 2 1 gaussian Sigma keV 9.43463 +/- 0.232113 1
3 3 1 gaussian norm 0.148521 +/- 0.335723E-02 1
4 4 2 powerlaw PhoIndex 0.941960 +/- 0.104287E-01 1
5 5 2 powerlaw norm 0.575094 +/- 0.239135E-01 1
6 6 3 gaussian LineE keV 79.8914 +/- 0.253879 2
7 7 3 gaussian Sigma keV 10.2462 +/- 0.445074E-01 2
8 3 3 gaussian norm 0.148521 = par 3 2
9 8 4 powerlaw PhoIndex 0.943170 +/- 0.100199E-01 2
10 5 4 powerlaw norm 0.575094 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 460.8603 using 168 PHA bins.
Reduced chi-squared = 2.880377 for 160 degrees of freedom
Null hypothesis probability = 6.241E-31
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.760) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.760) > 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 0.9786 photons ( 1.1760E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9743 photons ( 1.1758E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
81.42668
=====best line=====
77.7568 0.229427
=====best sigma=====
9.44131 0.231725
=====norm=====
0.148583 0.335258E-02
=====phoindx=====
0.941989 0.104233E-01
=====pow_norm=====
0.575124 0.239062E-01
=====best line=====
79.8913 0.253741
=====best sigma=====
10.2513 0.451974E-01
=====norm=====
0.148583 par
=====phoindx=====
0.943199 0.100148E-01
=====pow_norm=====
0.575124 par
=====redu_chi=====
2.880370
=====area_flux=====
0.9786
=====area_flux_f=====
0.9743
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 1 1 640 2000 1244.1088 0 0.148583 0.335258E-02 9.44131 0.231725 0.941989 0.104233E-01 0.575124 0.239062E-01 0.9786 640 2000 1278.2608 0 0.148583 0.335258E-02 10.2513 0.451974E-01 0.943199 0.100148E-01 0.575124 0.239062E-01 0.9743 2.880370 0
=====redu_chi=====
447.6301
=====best line=====
120.932 0.163439
=====best sigma=====
19.3655 1.67872
=====norm=====
1.05028 0.495464E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
118.632 0.170577
=====best sigma=====
19.2315 0.978038
=====norm=====
1.05028 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
73.04369
=====area_flux=====
0.9033
=====area_flux_f=====
0.8755
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 1 1 1600 3200 1934.912 0 1.05028 0.495464E-02 309.848 26.85952 9.50000 -1.00000 0.00000 -1.00000 0.9033 1600 3200 1898.112 0 1.05028 0.495464E-02 307.704 15.648608 9.50000 -1.00000 0.00000 -1.00000 0.8755 73.04369 1
=====redu_chi=====
131.0919
=====best line=====
77.7597 0.229755
=====best sigma=====
9.43463 0.232113
=====norm=====
0.148521 0.335723E-02
=====phoindx=====
0.941960 0.104287E-01
=====pow_norm=====
0.575094 0.239135E-01
=====best line=====
79.8914 0.253879
=====best sigma=====
10.2462 0.445074E-01
=====norm=====
0.148521 par
=====phoindx=====
0.943170 0.100199E-01
=====pow_norm=====
0.575094 par
=====redu_chi=====
2.880377
=====area_flux=====
0.9786
=====area_flux_f=====
0.9743
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 1 1 640 2000 1244.1552 0 0.148521 0.335723E-02 9.43463 0.232113 0.941960 0.104287E-01 0.575094 0.239135E-01 0.9786 640 2000 1278.2624 0 0.148521 0.335723E-02 10.2462 0.445074E-01 0.943170 0.100199E-01 0.575094 0.239135E-01 0.9743 2.880377 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:01:59 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.472 +/- 6.9824E-03
Net count rate (cts/s) for file 2 3.472 +/- 6.9824E-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 = 307557.6 using 168 PHA bins.
Reduced chi-squared = 1922.235 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21673.92 using 168 PHA bins.
Reduced chi-squared = 135.4620 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8522.37 -3 82.49 16.75 0.2768 1.044
0.8608 82.87 16.60 1.037
993.106 -3 73.89 9.340 0.1982 0.8647
0.5581 75.07 9.562 0.8733
779.072 -2 75.05 9.298 0.2024 0.8881
0.6149 76.33 10.26 0.8891
735.485 -2 75.12 9.298 0.2020 0.9045
0.6617 76.50 9.961 0.9057
711.720 -2 75.19 9.316 0.2028 0.9176
0.7007 76.58 9.891 0.9190
706.560 -3 75.39 9.328 0.2040 0.9544
0.8085 76.81 9.874 0.9549
676.633 -4 75.46 9.364 0.2050 0.9668
0.8623 76.88 9.899 0.9682
674.678 -5 75.47 9.365 0.2051 0.9668
0.8663 76.89 9.897 0.9688
674.675 -6 75.47 9.367 0.2051 0.9668
0.8663 76.89 9.898 0.9688
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.45E-07 | 0.00 0.00 -0.24 0.67 -0.35 0.00 0.00 0.61
7.84E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.73
7.59E-06 | 0.00 0.01 -0.97 -0.15 0.10 0.00 0.01 -0.16
9.46E-04 | 0.04 0.01 -0.01 -0.26 -0.93 0.04 0.01 -0.25
2.61E-02 | -0.14 -0.76 0.00 0.00 0.00 0.09 0.62 0.00
5.77E-02 | 0.27 -0.56 -0.01 0.00 0.02 0.40 -0.67 0.00
3.67E-02 | 0.94 -0.01 0.00 0.01 0.03 -0.24 0.24 0.01
4.10E-02 | 0.15 0.33 0.00 0.01 0.04 0.88 0.31 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.4688 +/- 0.195120 1
2 2 1 gaussian Sigma keV 9.36658 +/- 0.193584 1
3 3 1 gaussian norm 0.205088 +/- 0.382720E-02 1
4 4 2 powerlaw PhoIndex 0.966778 +/- 0.870246E-02 1
5 5 2 powerlaw norm 0.866282 +/- 0.304140E-01 1
6 6 3 gaussian LineE keV 76.8889 +/- 0.208116 2
7 7 3 gaussian Sigma keV 9.89850 +/- 0.206133 2
8 3 3 gaussian norm 0.205088 = par 3 2
9 8 4 powerlaw PhoIndex 0.968809 +/- 0.835665E-02 2
10 5 4 powerlaw norm 0.866282 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 674.6748 using 168 PHA bins.
Reduced chi-squared = 4.216718 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 ( 4.040) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.040) > 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 1.330 photons ( 1.5875E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.320 photons ( 1.5804E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:01:59 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.860 +/- 1.0506E-02
Net count rate (cts/s) for file 2 7.860 +/- 1.0506E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.388 +/- 1.2615E-02( 55.8% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.388 +/- 1.2615E-02( 55.8% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.3216994E+07 using 198 PHA bins.
Reduced chi-squared = 69563.12 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 83044.20 using 198 PHA bins.
Reduced chi-squared = 437.0748 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
47592.0 -3 111.2 18.36 0.4185 2.788
0.1005 105.0 18.42 2.724
18533.0 -2 103.2 19.36 1.540 9.086
3.7896E-02 108.6 19.33 6.712
16626.3 -2 106.6 19.36 1.483 9.490
1.3869E-02 108.0 19.35 8.816
15791.5 -1 108.5 19.36 1.446 9.497
1.7067E-03 108.7 19.36 9.253
15355.1 -1 109.7 19.37 1.418 9.499
5.8213E-06 109.3 19.36 9.408
15095.7 -1 110.5 19.37 1.393 9.499
1.5021E-06 109.9 19.37 9.460
14945.0 -1 111.2 19.37 1.373 9.500
1.1247E-07 110.3 19.37 9.496
14871.2 -1 111.6 19.37 1.358 9.500
1.2765E-08 110.7 19.37 9.498
14861.8 -1 111.9 19.37 1.350 9.500
1.5062E-10 110.9 19.37 9.499
14801.9 -1 112.4 19.37 1.316 9.500
8.9298E-13 111.5 19.37 9.500
Fit parameter 5 has pegged
14507.3 0 112.6 19.37 1.306 9.500
0.000 111.3 19.23 9.500
Fit parameter 5 has pegged
13992.6 0 112.7 19.37 1.273 9.500
0.000 110.9 18.09 9.500
Fit parameter 5 has pegged
13746.0 -1 113.3 19.37 1.221 9.500
0.000 111.9 18.27 9.500
Fit parameter 5 has pegged
13711.6 -2 113.9 19.37 1.190 9.500
0.000 112.7 17.56 9.500
Fit parameter 5 has pegged
13682.0 -3 114.1 19.34 1.189 9.500
0.000 112.8 17.92 9.500
Fit parameter 5 has pegged
13679.4 -4 114.2 19.28 1.181 9.500
0.000 113.0 17.68 9.500
Fit parameter 5 has pegged
13677.6 -5 114.2 19.31 1.184 9.500
0.000 113.0 17.81 9.500
Fit parameter 5 has pegged
13677.2 -6 114.2 19.30 1.182 9.500
0.000 113.0 17.74 9.500
Fit parameter 5 has pegged
13677.1 -7 114.2 19.31 1.183 9.500
0.000 113.0 17.78 9.500
Fit parameter 5 has pegged
13677.1 -4 114.2 19.31 1.182 9.500
0.000 113.0 17.76 9.500
13677.0 5 114.2 19.31 1.183 9.500
0.000 113.0 17.76 9.500
Fit parameter 5 has pegged
13677.0 5 114.2 19.31 1.183 9.500
0.000 113.0 17.76 9.500
13677.0 5 114.2 19.31 1.183 9.500
0.000 113.0 17.76 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.97E-05 | -0.01 0.00 -1.00 -0.01 0.01
5.08E-03 | 0.01 0.00 0.00 0.48 0.88
1.76E-02 | -0.96 -0.09 0.01 0.24 -0.13
3.66E-02 | 0.27 0.08 -0.02 0.84 -0.46
1.59E+00 | 0.11 -0.99 0.00 0.04 -0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 114.219 +/- 0.196121 1
2 2 1 gaussian Sigma keV 19.3052 +/- 1.25160 1
3 3 1 gaussian norm 1.18250 +/- 0.652284E-02 1
4 4 2 powerlaw PhoIndex 9.50049 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 112.994 +/- 0.176355 2
7 7 3 gaussian Sigma keV 17.7594 +/- 0.114375 2
8 3 3 gaussian norm 1.18250 = par 3 2
9 8 4 powerlaw PhoIndex 9.50036 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 13677.02 using 198 PHA bins.
Reduced chi-squared = 71.98432 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 ( 69.426) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 69.426) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.9096 photons ( 1.7759E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9078 photons ( 1.7463E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:01:59 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.472 +/- 6.9824E-03
Net count rate (cts/s) for file 2 3.472 +/- 6.9824E-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 = 383292.5 using 168 PHA bins.
Reduced chi-squared = 2395.578 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 34333.12 using 168 PHA bins.
Reduced chi-squared = 214.5820 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
13040.5 -3 85.60 14.45 0.1834 1.051
0.8972 85.66 13.98 1.040
2448.56 -4 70.20 17.10 0.2609 0.9463
0.7819 72.06 16.47 0.9528
1587.02 -1 77.79 6.923 0.2106 0.9498
0.7882 77.66 8.757 0.9507
706.133 -2 76.36 9.141 0.2004 0.9537
0.8210 77.00 9.787 0.9555
677.192 -3 75.42 9.599 0.2071 0.9643
0.8535 76.85 9.982 0.9659
675.283 -4 75.52 9.276 0.2037 0.9670
0.8673 76.90 9.928 0.9688
674.723 -5 75.45 9.399 0.2054 0.9667
0.8659 76.89 9.905 0.9688
674.682 -6 75.48 9.353 0.2049 0.9668
0.8665 76.89 9.892 0.9688
674.677 -7 75.47 9.371 0.2052 0.9668
0.8662 76.89 9.901 0.9688
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.45E-07 | 0.00 0.00 -0.24 0.67 -0.35 0.00 0.00 0.61
7.84E-07 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.74
7.58E-06 | 0.00 0.01 -0.97 -0.15 0.10 0.00 0.01 -0.16
9.46E-04 | 0.04 0.01 -0.01 -0.26 -0.93 0.04 0.01 -0.25
2.60E-02 | -0.14 -0.76 0.00 0.00 0.00 0.09 0.62 0.00
5.76E-02 | 0.27 -0.56 -0.01 0.00 0.02 0.41 -0.67 0.00
3.66E-02 | 0.94 -0.01 0.00 0.01 0.03 -0.24 0.24 0.01
4.10E-02 | 0.15 0.33 0.00 0.01 0.04 0.88 0.31 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.4664 +/- 0.194894 1
2 2 1 gaussian Sigma keV 9.37145 +/- 0.193338 1
3 3 1 gaussian norm 0.205153 +/- 0.382331E-02 1
4 4 2 powerlaw PhoIndex 0.966772 +/- 0.869921E-02 1
5 5 2 powerlaw norm 0.866220 +/- 0.304093E-01 1
6 6 3 gaussian LineE keV 76.8882 +/- 0.208095 2
7 7 3 gaussian Sigma keV 9.90122 +/- 0.206068 2
8 3 3 gaussian norm 0.205153 = par 3 2
9 8 4 powerlaw PhoIndex 0.968805 +/- 0.835358E-02 2
10 5 4 powerlaw norm 0.866220 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 674.6774 using 168 PHA bins.
Reduced chi-squared = 4.216734 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 ( 4.040) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.040) > 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 1.330 photons ( 1.5875E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.320 photons ( 1.5804E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
135.4620
=====best line=====
75.4688 0.195120
=====best sigma=====
9.36658 0.193584
=====norm=====
0.205088 0.382720E-02
=====phoindx=====
0.966778 0.870246E-02
=====pow_norm=====
0.866282 0.304140E-01
=====best line=====
76.8889 0.208116
=====best sigma=====
9.89850 0.206133
=====norm=====
0.205088 par
=====phoindx=====
0.968809 0.835665E-02
=====pow_norm=====
0.866282 par
=====redu_chi=====
4.216718
=====area_flux=====
1.330
=====area_flux_f=====
1.320
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 2 1 640 2000 1207.5008 0 0.205088 0.382720E-02 9.36658 0.193584 0.966778 0.870246E-02 0.866282 0.304140E-01 1.330 640 2000 1230.2224 0 0.205088 0.382720E-02 9.89850 0.206133 0.968809 0.835665E-02 0.866282 0.304140E-01 1.320 4.216718 1
=====redu_chi=====
437.0748
=====best line=====
114.219 0.196121
=====best sigma=====
19.3052 1.25160
=====norm=====
1.18250 0.652284E-02
=====phoindx=====
9.50049 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
112.994 0.176355
=====best sigma=====
17.7594 0.114375
=====norm=====
1.18250 par
=====phoindx=====
9.50036 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
71.98432
=====area_flux=====
0.9096
=====area_flux_f=====
0.9078
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 2 1 1600 3200 1827.504 0 1.18250 0.652284E-02 308.8832 20.0256 9.50049 -1.00000 0.00000 -1.00000 0.9096 1600 3200 1807.904 0 1.18250 0.652284E-02 284.1504 1.83 9.50036 -1.00000 0.00000 -1.00000 0.9078 71.98432 1
=====redu_chi=====
214.5820
=====best line=====
75.4664 0.194894
=====best sigma=====
9.37145 0.193338
=====norm=====
0.205153 0.382331E-02
=====phoindx=====
0.966772 0.869921E-02
=====pow_norm=====
0.866220 0.304093E-01
=====best line=====
76.8882 0.208095
=====best sigma=====
9.90122 0.206068
=====norm=====
0.205153 par
=====phoindx=====
0.968805 0.835358E-02
=====pow_norm=====
0.866220 par
=====redu_chi=====
4.216734
=====area_flux=====
1.330
=====area_flux_f=====
1.320
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 2 1 640 2000 1207.4624 0 0.205153 0.382331E-02 9.37145 0.193338 0.966772 0.869921E-02 0.866220 0.304093E-01 1.330 640 2000 1230.2112 0 0.205153 0.382331E-02 9.90122 0.206068 0.968805 0.835358E-02 0.866220 0.304093E-01 1.320 4.216734 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:01:59 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.519 +/- 5.9473E-03
Net count rate (cts/s) for file 2 2.519 +/- 5.9473E-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 = 638260.2 using 168 PHA bins.
Reduced chi-squared = 3989.126 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18400.14 using 168 PHA bins.
Reduced chi-squared = 115.0009 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
10049.2 -3 82.41 16.98 0.1771 1.084
0.6726 82.66 16.76 1.073
1394.54 -3 68.90 17.96 0.1881 0.9130
0.4870 70.86 17.34 0.9217
1082.89 0 70.37 8.284 0.1886 0.9172
0.4824 71.89 12.06 0.9220
527.322 -1 71.33 9.410 0.1556 0.9168
0.4950 73.71 11.40 0.9184
451.949 -2 72.30 9.287 0.1415 0.9356
0.5412 74.56 10.02 0.9356
428.535 -2 72.47 9.294 0.1418 0.9505
0.5782 74.81 9.998 0.9507
414.913 -2 72.55 9.273 0.1414 0.9622
0.6092 74.91 9.983 0.9626
410.162 -3 72.75 9.231 0.1410 0.9953
0.6942 75.15 9.949 0.9949
394.310 -4 72.81 9.256 0.1413 1.006
0.7340 75.23 9.890 1.006
393.401 -5 72.82 9.259 0.1413 1.006
0.7364 75.23 9.892 1.007
393.399 -6 72.82 9.259 0.1413 1.006
0.7364 75.23 9.892 1.007
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.06E-07 | 0.00 0.00 -0.34 0.62 -0.39 0.00 0.00 0.59
1.08E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.81E-06 | 0.00 0.01 -0.94 -0.21 0.14 0.00 0.01 -0.22
9.76E-04 | 0.03 0.00 0.00 -0.30 -0.91 0.03 0.00 -0.29
3.92E-02 | -0.17 -0.77 0.00 0.00 0.00 0.09 0.61 0.00
9.14E-02 | 0.29 -0.53 -0.01 0.01 0.02 0.45 -0.66 0.00
5.48E-02 | -0.94 -0.01 0.00 -0.01 -0.02 0.16 -0.30 -0.01
6.11E-02 | -0.04 -0.35 0.00 -0.01 -0.03 -0.87 -0.33 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 72.8218 +/- 0.239692 1
2 2 1 gaussian Sigma keV 9.25948 +/- 0.238088 1
3 3 1 gaussian norm 0.141307 +/- 0.327877E-02 1
4 4 2 powerlaw PhoIndex 1.00581 +/- 0.101337E-01 1
5 5 2 powerlaw norm 0.736431 +/- 0.303631E-01 1
6 6 3 gaussian LineE keV 75.2335 +/- 0.258233 2
7 7 3 gaussian Sigma keV 9.89163 +/- 0.255875 2
8 3 3 gaussian norm 0.141307 = par 3 2
9 8 4 powerlaw PhoIndex 1.00675 +/- 0.972783E-02 2
10 5 4 powerlaw norm 0.736431 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 393.3993 using 168 PHA bins.
Reduced chi-squared = 2.458745 for 160 degrees of freedom
Null hypothesis probability = 1.132E-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 ( 2.356) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.356) > 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 0.9513 photons ( 1.1255E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9481 photons ( 1.1270E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:00 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.914 +/- 9.1134E-03
Net count rate (cts/s) for file 2 5.914 +/- 9.1134E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.396 +/- 1.0882E-02( 57.4% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.396 +/- 1.0882E-02( 57.4% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.3550054E+07 using 198 PHA bins.
Reduced chi-squared = 71316.07 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 70357.48 using 198 PHA bins.
Reduced chi-squared = 370.3025 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
37350.0 -3 116.2 19.26 0.3361 2.789
0.1033 111.4 19.27 2.721
37289.2 2 116.2 19.26 0.3367 2.649
0.1546 111.4 19.27 2.657
36681.4 1 116.3 19.21 0.3428 2.266
0.4465 111.6 19.22 2.385
31384.7 0 117.3 18.40 0.3968 2.208
0.6260 113.0 18.23 2.326
21819.5 0 119.5 16.04 0.6402 2.398
0.3079 117.8 9.872 2.784
21708.0 1 119.5 16.06 0.6404 2.378
0.3497 117.8 9.919 2.522
18304.0 0 119.6 16.25 0.6431 2.298
0.6820 117.7 12.16 2.041
14955.4 0 119.3 17.29 0.7156 2.761
0.5972 117.0 14.48 2.052
12055.7 -1 115.6 18.83 0.9394 8.891
0.2569 114.5 17.62 2.433
12034.4 0 115.5 19.15 0.9375 9.448
6.9196E-02 114.3 17.85 6.863
12020.8 0 115.5 19.14 0.9365 9.489
3.4580E-02 114.3 17.84 9.479
12012.3 0 115.4 19.14 0.9358 9.495
5.6764E-03 114.3 17.85 9.496
12005.6 0 115.4 19.15 0.9352 9.498
7.4640E-04 114.2 17.85 9.500
12000.0 0 115.3 19.15 0.9348 9.499
2.9132E-04 114.2 17.85 9.500
11995.2 0 115.3 19.16 0.9344 9.500
5.4093E-05 114.2 17.86 9.500
11991.2 0 115.3 19.16 0.9341 9.500
2.3791E-05 114.2 17.86 9.500
11987.8 0 115.2 19.17 0.9339 9.500
8.6293E-06 114.1 17.86 9.500
11984.9 0 115.2 19.17 0.9338 9.500
1.0523E-06 114.1 17.87 9.500
11982.5 0 115.2 19.18 0.9337 9.500
1.0595E-07 114.1 17.87 9.500
11973.6 0 115.1 19.19 0.9337 9.500
7.9416E-09 114.0 17.87 9.500
11970.7 0 115.0 19.19 0.9337 9.500
3.9552E-09 114.0 17.87 9.500
11968.2 0 115.0 19.19 0.9337 9.500
1.9698E-09 114.0 17.87 9.500
11966.2 0 115.0 19.19 0.9338 9.500
9.8034E-10 113.9 17.87 9.500
11964.4 0 115.0 19.19 0.9339 9.500
4.8713E-10 113.9 17.88 9.500
11963.0 0 114.9 19.20 0.9341 9.500
2.4099E-10 113.9 17.88 9.500
11961.7 0 114.9 19.20 0.9342 9.500
1.1811E-10 113.9 17.88 9.500
11960.5 0 114.9 19.20 0.9344 9.500
5.6756E-11 113.9 17.88 9.500
11959.5 0 114.9 19.21 0.9346 9.500
2.6105E-11 113.9 17.89 9.500
11958.5 0 114.9 19.21 0.9348 9.500
1.0788E-11 113.8 17.89 9.500
11957.6 0 114.8 19.22 0.9351 9.500
3.1345E-12 113.8 17.89 9.500
11956.8 0 114.8 19.22 0.9353 9.500
1.2220E-12 113.8 17.90 9.500
11956.1 0 114.8 19.23 0.9355 9.500
2.6612E-13 113.8 17.90 9.500
11955.4 0 114.8 19.23 0.9358 9.500
2.7212E-14 113.8 17.90 9.500
Fit parameter 5 has pegged
11947.3 0 114.6 19.24 0.9378 9.500
0.000 113.6 17.89 9.500
Fit parameter 5 has pegged
11937.8 -1 114.3 19.34 0.9464 9.500
0.000 113.3 18.00 9.500
Fit parameter 5 has pegged
11937.2 -2 114.0 19.35 0.9538 9.500
0.000 113.1 18.08 9.500
Fit parameter 5 has pegged
11937.0 -1 114.0 19.36 0.9544 9.500
0.000 113.1 18.09 9.500
Fit parameter 5 has pegged
11936.7 -1 114.0 19.36 0.9544 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
11936.5 0 114.0 19.37 0.9542 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
11936.4 0 114.0 19.37 0.9539 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
11936.2 0 114.0 19.37 0.9537 9.500
0.000 113.0 18.09 9.500
Fit parameter 5 has pegged
11936.2 0 114.1 19.37 0.9536 9.500
0.000 113.1 18.09 9.500
Fit parameter 5 has pegged
11936.1 0 114.1 19.37 0.9535 9.500
0.000 113.1 18.09 9.500
Fit parameter 5 has pegged
11936.1 0 114.1 19.37 0.9534 9.500
0.000 113.1 18.09 9.500
Fit parameter 5 has pegged
11936.0 0 114.1 19.37 0.9533 9.500
0.000 113.1 18.09 9.500
11936.0 4 114.1 19.37 0.9533 9.500
0.000 113.1 18.09 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.51E-05 | -0.01 0.00 -1.00 -0.01 0.01
9.44E-03 | 0.02 0.00 0.00 -0.65 -0.76
2.12E-02 | -0.97 -0.08 0.01 0.15 -0.15
5.47E-02 | 0.21 0.07 -0.01 0.75 -0.63
2.85E+00 | -0.09 0.99 0.00 -0.04 0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 114.065 +/- 0.216009 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.68026 1
3 3 1 gaussian norm 0.953314 +/- 0.581724E-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 113.057 +/- 0.197562 2
7 7 3 gaussian Sigma keV 18.0858 +/- 0.173725 2
8 3 3 gaussian norm 0.953314 = 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 = 11936.04 using 198 PHA bins.
Reduced chi-squared = 62.82126 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 ( 60.589) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 60.589) > 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 0.7303 photons ( 1.4254E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7290 photons ( 1.4055E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:00 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.519 +/- 5.9473E-03
Net count rate (cts/s) for file 2 2.519 +/- 5.9473E-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 = 760666.4 using 168 PHA bins.
Reduced chi-squared = 4754.165 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 28278.61 using 168 PHA bins.
Reduced chi-squared = 176.7413 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
16602.3 -3 85.92 14.57 0.1075 1.105
0.7084 85.65 14.00 1.088
2220.75 -4 64.59 18.51 0.2074 1.047
0.8524 67.27 17.89 1.053
2131.07 -2 80.67 6.340 6.4475E-02 1.058
0.9377 79.61 6.158 1.052
1206.23 -3 74.27 15.48 0.1091 1.042
0.8894 76.48 9.644 1.043
607.046 -4 72.70 7.020 0.1275 0.9967
0.7051 75.10 9.208 0.9987
395.532 -5 72.53 9.276 0.1405 1.004
0.7304 75.27 9.965 1.005
393.504 -6 72.84 9.208 0.1408 1.006
0.7369 75.24 9.904 1.007
393.407 -7 72.81 9.274 0.1414 1.006
0.7361 75.23 9.896 1.007
393.401 -8 72.82 9.254 0.1413 1.006
0.7365 75.23 9.889 1.007
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.06E-07 | 0.00 0.00 -0.34 0.62 -0.39 0.00 0.00 0.59
1.08E-06 | 0.00 0.00 -0.02 -0.69 0.00 0.00 0.00 0.72
5.82E-06 | 0.00 0.01 -0.94 -0.21 0.14 0.00 0.01 -0.22
9.76E-04 | 0.03 0.00 0.00 -0.30 -0.91 0.03 0.00 -0.29
3.93E-02 | -0.17 -0.77 0.00 0.00 0.00 0.09 0.61 0.00
9.16E-02 | 0.30 -0.53 -0.01 0.01 0.02 0.44 -0.66 0.00
5.49E-02 | -0.94 -0.01 0.00 -0.01 -0.02 0.17 -0.30 -0.01
6.11E-02 | -0.04 -0.36 0.00 -0.01 -0.03 -0.88 -0.32 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 72.8247 +/- 0.240096 1
2 2 1 gaussian Sigma keV 9.25427 +/- 0.238507 1
3 3 1 gaussian norm 0.141263 +/- 0.328278E-02 1
4 4 2 powerlaw PhoIndex 1.00584 +/- 0.101362E-01 1
5 5 2 powerlaw norm 0.736533 +/- 0.303576E-01 1
6 6 3 gaussian LineE keV 75.2339 +/- 0.258193 2
7 7 3 gaussian Sigma keV 9.88945 +/- 0.255908 2
8 3 3 gaussian norm 0.141263 = par 3 2
9 8 4 powerlaw PhoIndex 1.00678 +/- 0.973024E-02 2
10 5 4 powerlaw norm 0.736533 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 393.4006 using 168 PHA bins.
Reduced chi-squared = 2.458754 for 160 degrees of freedom
Null hypothesis probability = 1.132E-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 ( 2.356) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.356) > 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 0.9513 photons ( 1.1255E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9481 photons ( 1.1270E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
115.0009
=====best line=====
72.8218 0.239692
=====best sigma=====
9.25948 0.238088
=====norm=====
0.141307 0.327877E-02
=====phoindx=====
1.00581 0.101337E-01
=====pow_norm=====
0.736431 0.303631E-01
=====best line=====
75.2335 0.258233
=====best sigma=====
9.89163 0.255875
=====norm=====
0.141307 par
=====phoindx=====
1.00675 0.972783E-02
=====pow_norm=====
0.736431 par
=====redu_chi=====
2.458745
=====area_flux=====
0.9513
=====area_flux_f=====
0.9481
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 3 1 640 2000 1165.1488 0 0.141307 0.327877E-02 9.25948 0.238088 1.00581 0.101337E-01 0.736431 0.303631E-01 0.9513 640 2000 1203.736 0 0.141307 0.327877E-02 9.89163 0.255875 1.00675 0.972783E-02 0.736431 0.303631E-01 0.9481 2.458745 0
=====redu_chi=====
370.3025
=====best line=====
114.065 0.216009
=====best sigma=====
19.3655 1.68026
=====norm=====
0.953314 0.581724E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.057 0.197562
=====best sigma=====
18.0858 0.173725
=====norm=====
0.953314 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
62.82126
=====area_flux=====
0.7303
=====area_flux_f=====
0.7290
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 3 1 1600 3200 1825.04 0 0.953314 0.581724E-02 309.848 26.88416 9.50000 -1.00000 0.00000 -1.00000 0.7303 1600 3200 1808.912 0 0.953314 0.581724E-02 289.3728 2.7796 9.50000 -1.00000 0.00000 -1.00000 0.7290 62.82126 1
=====redu_chi=====
176.7413
=====best line=====
72.8247 0.240096
=====best sigma=====
9.25427 0.238507
=====norm=====
0.141263 0.328278E-02
=====phoindx=====
1.00584 0.101362E-01
=====pow_norm=====
0.736533 0.303576E-01
=====best line=====
75.2339 0.258193
=====best sigma=====
9.88945 0.255908
=====norm=====
0.141263 par
=====phoindx=====
1.00678 0.973024E-02
=====pow_norm=====
0.736533 par
=====redu_chi=====
2.458754
=====area_flux=====
0.9513
=====area_flux_f=====
0.9481
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 3 1 640 2000 1165.1952 0 0.141263 0.328278E-02 9.25427 0.238507 1.00584 0.101362E-01 0.736533 0.303576E-01 0.9513 640 2000 1203.7424 0 0.141263 0.328278E-02 9.88945 0.255908 1.00678 0.973024E-02 0.736533 0.303576E-01 0.9481 2.458754 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:00 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.477 +/- 5.8974E-03
Net count rate (cts/s) for file 2 2.477 +/- 5.8974E-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 = 456137.4 using 168 PHA bins.
Reduced chi-squared = 2850.859 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 6381.695 using 168 PHA bins.
Reduced chi-squared = 39.88559 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1009.31 -3 87.02 13.34 0.1557 0.8347
0.3935 88.02 12.90 0.8336
461.439 -4 83.84 9.974 0.1402 0.8263
0.3687 86.15 10.27 0.8271
445.904 0 83.94 10.57 0.1410 0.8264
0.3687 86.31 10.68 0.8271
438.093 -1 84.06 10.68 0.1468 0.8277
0.3682 86.39 11.20 0.8282
435.983 -2 84.09 10.81 0.1497 0.8327
0.3745 86.38 11.30 0.8330
433.579 -3 84.19 10.93 0.1527 0.8491
0.3988 86.48 11.43 0.8489
431.842 -4 84.26 10.99 0.1542 0.8576
0.4137 86.53 11.48 0.8576
431.541 -5 84.27 10.98 0.1543 0.8578
0.4150 86.53 11.47 0.8582
431.541 -6 84.27 10.99 0.1543 0.8578
0.4151 86.53 11.48 0.8582
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.77E-07 | 0.00 0.00 -0.27 0.54 -0.61 0.00 0.00 0.52
1.03E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.34E-06 | 0.00 0.04 -0.96 -0.12 0.21 0.00 0.03 -0.13
4.82E-04 | 0.02 0.18 -0.04 -0.45 -0.75 0.02 0.14 -0.43
1.35E-03 | 0.00 -0.74 -0.01 -0.02 -0.02 0.01 0.67 -0.01
4.04E-03 | 0.01 -0.65 -0.06 -0.11 -0.16 0.00 -0.73 -0.11
8.49E-02 | -0.46 0.00 0.00 -0.01 -0.02 -0.89 0.00 -0.01
7.10E-02 | 0.89 0.00 0.00 0.00 0.01 -0.46 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 84.2700 +/- 0.271838 1
2 2 1 gaussian Sigma keV 10.9866 +/- 0.494819E-01 1
3 3 1 gaussian norm 0.154306 +/- 0.449436E-02 1
4 4 2 powerlaw PhoIndex 0.857809 +/- 0.128238E-01 1
5 5 2 powerlaw norm 0.415053 +/- 0.205359E-01 1
6 6 3 gaussian LineE keV 86.5289 +/- 0.286253 2
7 7 3 gaussian Sigma keV 11.4752 +/- 0.524998E-01 2
8 3 3 gaussian norm 0.154306 = par 3 2
9 8 4 powerlaw PhoIndex 0.858226 +/- 0.123238E-01 2
10 5 4 powerlaw norm 0.415053 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 431.5406 using 168 PHA bins.
Reduced chi-squared = 2.697129 for 160 degrees of freedom
Null hypothesis probability = 8.357E-27
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.584) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.584) > 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 1.012 photons ( 1.2410E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.010 photons ( 1.2445E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:00 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.091 +/- 9.2482E-03
Net count rate (cts/s) for file 2 6.091 +/- 9.2482E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.614 +/- 1.0969E-02( 59.3% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.614 +/- 1.0969E-02( 59.3% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 2351635. using 198 PHA bins.
Reduced chi-squared = 12377.03 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 104235.5 using 198 PHA bins.
Reduced chi-squared = 548.6078 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
56462.2 -3 124.0 19.07 0.4903 2.734
0.7390 127.5 18.98 2.920
55767.6 2 124.0 19.06 0.4911 2.043
2.664 127.5 18.98 2.667
54738.8 1 124.1 19.02 0.4981 2.001
3.270 127.6 18.95 2.504
45243.2 0 125.2 18.74 0.5595 1.788
7.042 128.3 18.74 2.096
27564.0 0 127.3 19.22 0.8556 1.751
7.983 129.3 19.33 2.168
24603.5 -1 124.5 19.30 1.383 1.799
5.027 126.2 19.36 2.968
23754.7 0 124.4 19.35 1.347 1.801
5.069 126.2 19.36 9.490
23339.6 0 124.5 19.36 1.325 1.801
5.180 126.3 19.36 9.498
23106.8 0 124.6 19.36 1.312 1.802
5.308 126.5 19.37 9.499
22977.4 0 124.7 19.37 1.305 1.802
5.423 126.6 19.37 9.500
22883.4 0 124.8 19.37 1.299 1.803
5.542 126.7 19.37 9.500
22816.1 0 124.8 19.37 1.296 1.804
5.663 126.8 19.37 9.500
22783.1 0 124.9 19.37 1.294 1.806
5.762 126.8 19.37 9.500
22744.5 0 124.9 19.37 1.292 1.808
5.854 126.9 19.37 9.500
22717.8 0 125.0 19.37 1.291 1.812
5.894 126.9 19.37 9.500
22696.8 0 125.0 19.37 1.290 1.815
5.972 127.0 19.37 9.500
22690.5 0 125.1 19.37 1.290 1.815
6.119 127.0 19.37 9.500
22675.2 0 125.1 19.37 1.289 1.819
6.163 127.0 19.37 9.500
22672.1 0 125.1 19.37 1.289 1.822
6.237 127.0 19.37 9.500
22667.2 0 125.1 19.37 1.289 1.824
6.333 127.0 19.37 9.500
22665.5 0 125.1 19.37 1.289 1.827
6.415 127.0 19.37 9.500
22657.4 0 125.1 19.37 1.288 1.830
6.506 127.1 19.37 9.500
22646.1 0 125.1 19.37 1.288 1.832
6.600 127.1 19.37 9.500
22545.5 0 125.2 19.37 1.280 1.833
6.603 127.1 19.37 9.500
22457.8 0 125.3 19.37 1.273 1.833
6.613 127.2 19.37 9.500
22381.4 0 125.4 19.37 1.267 1.832
6.632 127.2 19.37 9.500
22254.6 0 125.5 19.37 1.256 1.832
6.681 127.3 19.37 9.500
22202.0 0 125.6 19.37 1.251 1.831
6.710 127.3 19.37 9.500
22155.1 0 125.6 19.37 1.247 1.831
6.742 127.4 19.37 9.500
22113.5 0 125.7 19.37 1.242 1.830
6.772 127.4 19.37 9.500
22076.2 0 125.8 19.37 1.238 1.829
6.805 127.4 19.37 9.500
22042.9 0 125.8 19.37 1.235 1.829
6.836 127.5 19.37 9.500
22012.8 0 125.9 19.37 1.232 1.828
6.867 127.5 19.37 9.500
21985.7 0 125.9 19.37 1.228 1.828
6.895 127.6 19.37 9.500
21961.1 0 126.0 19.37 1.226 1.828
6.923 127.6 19.37 9.500
21939.0 0 126.1 19.37 1.223 1.827
6.951 127.6 19.37 9.500
21919.0 0 126.1 19.37 1.220 1.827
6.979 127.7 19.37 9.500
21900.8 0 126.2 19.37 1.218 1.827
7.006 127.7 19.37 9.500
21884.2 0 126.2 19.37 1.216 1.826
7.030 127.7 19.37 9.500
21869.1 0 126.3 19.37 1.214 1.826
7.056 127.8 19.37 9.500
21855.3 0 126.3 19.37 1.212 1.826
7.079 127.8 19.37 9.500
21842.8 0 126.4 19.37 1.210 1.826
7.101 127.8 19.37 9.500
21831.2 0 126.4 19.37 1.209 1.826
7.123 127.8 19.37 9.500
21820.8 0 126.5 19.37 1.207 1.826
7.145 127.9 19.37 9.500
21811.2 0 126.5 19.37 1.206 1.826
7.164 127.9 19.37 9.500
21802.3 0 126.5 19.37 1.205 1.826
7.185 127.9 19.37 9.500
21794.1 0 126.6 19.37 1.203 1.826
7.203 127.9 19.37 9.500
21786.6 0 126.6 19.37 1.202 1.826
7.220 128.0 19.37 9.500
21779.7 0 126.7 19.37 1.201 1.826
7.238 128.0 19.37 9.500
21773.4 0 126.7 19.37 1.200 1.826
7.258 128.0 19.37 9.500
21767.4 0 126.7 19.37 1.199 1.826
7.277 128.0 19.37 9.500
21761.9 0 126.8 19.37 1.198 1.826
7.293 128.0 19.37 9.500
21756.8 0 126.8 19.37 1.197 1.826
7.309 128.1 19.37 9.500
21752.1 0 126.8 19.37 1.197 1.826
7.325 128.1 19.37 9.500
21747.7 0 126.9 19.37 1.196 1.826
7.341 128.1 19.37 9.500
21743.7 0 126.9 19.37 1.195 1.826
7.357 128.1 19.37 9.500
21739.9 0 126.9 19.37 1.195 1.826
7.372 128.1 19.37 9.500
21736.4 0 126.9 19.37 1.194 1.826
7.384 128.1 19.37 9.500
21733.2 0 127.0 19.37 1.193 1.826
7.399 128.1 19.37 9.500
21730.2 0 127.0 19.37 1.193 1.827
7.414 128.2 19.37 9.500
21727.3 0 127.0 19.37 1.192 1.827
7.427 128.2 19.37 9.500
21724.6 0 127.0 19.37 1.192 1.827
7.439 128.2 19.37 9.500
21722.2 0 127.1 19.37 1.191 1.827
7.451 128.2 19.37 9.500
21719.9 0 127.1 19.37 1.191 1.827
7.464 128.2 19.37 9.500
21717.7 0 127.1 19.37 1.191 1.828
7.474 128.2 19.37 9.500
21715.7 0 127.1 19.37 1.190 1.828
7.487 128.2 19.37 9.500
21713.8 0 127.1 19.37 1.190 1.828
7.498 128.2 19.37 9.500
21712.0 0 127.2 19.37 1.190 1.828
7.508 128.2 19.37 9.500
21710.3 0 127.2 19.37 1.189 1.829
7.522 128.3 19.37 9.500
21708.8 0 127.2 19.37 1.189 1.829
7.534 128.3 19.37 9.500
21707.4 0 127.2 19.37 1.189 1.829
7.545 128.3 19.37 9.500
21705.9 0 127.2 19.37 1.188 1.829
7.556 128.3 19.37 9.500
21704.7 0 127.2 19.37 1.188 1.830
7.568 128.3 19.37 9.500
21703.4 0 127.3 19.37 1.188 1.830
7.580 128.3 19.37 9.500
21702.3 0 127.3 19.37 1.188 1.830
7.592 128.3 19.37 9.500
21701.2 0 127.3 19.37 1.187 1.830
7.604 128.3 19.37 9.500
21700.2 0 127.3 19.37 1.187 1.831
7.616 128.3 19.37 9.500
21699.2 0 127.3 19.37 1.187 1.831
7.625 128.3 19.37 9.500
21698.2 0 127.3 19.37 1.187 1.831
7.635 128.3 19.37 9.500
21697.4 0 127.3 19.37 1.187 1.831
7.648 128.3 19.37 9.500
21696.5 0 127.3 19.37 1.187 1.832
7.661 128.3 19.37 9.500
21695.8 0 127.4 19.37 1.186 1.832
7.674 128.3 19.37 9.500
21695.0 0 127.4 19.37 1.186 1.832
7.687 128.3 19.37 9.500
21694.3 0 127.4 19.37 1.186 1.833
7.697 128.3 19.37 9.500
21693.6 0 127.4 19.37 1.186 1.833
7.707 128.3 19.37 9.500
21693.0 0 127.4 19.37 1.186 1.833
7.720 128.3 19.37 9.500
21692.4 0 127.4 19.37 1.186 1.833
7.731 128.4 19.37 9.500
21691.8 0 127.4 19.37 1.186 1.834
7.741 128.4 19.37 9.500
21691.2 0 127.4 19.37 1.185 1.834
7.752 128.4 19.37 9.500
21690.7 0 127.4 19.37 1.185 1.834
7.763 128.4 19.37 9.500
21690.2 0 127.4 19.37 1.185 1.834
7.777 128.4 19.37 9.500
21689.7 0 127.4 19.37 1.185 1.835
7.788 128.4 19.37 9.500
21689.2 0 127.5 19.37 1.185 1.835
7.799 128.4 19.37 9.500
21688.8 0 127.5 19.37 1.185 1.835
7.811 128.4 19.37 9.500
21688.4 0 127.5 19.37 1.185 1.836
7.822 128.4 19.37 9.500
21688.0 0 127.5 19.37 1.185 1.836
7.837 128.4 19.37 9.500
21687.6 0 127.5 19.37 1.185 1.836
7.848 128.4 19.37 9.500
21687.2 0 127.5 19.37 1.185 1.836
7.860 128.4 19.37 9.500
21686.9 0 127.5 19.37 1.185 1.837
7.871 128.4 19.37 9.500
21686.5 0 127.5 19.37 1.185 1.837
7.885 128.4 19.37 9.500
21686.3 0 127.5 19.37 1.184 1.837
7.897 128.4 19.37 9.500
21686.0 0 127.5 19.37 1.184 1.837
7.908 128.4 19.37 9.500
21685.6 0 127.5 19.37 1.184 1.838
7.920 128.4 19.37 9.500
21685.3 0 127.5 19.37 1.184 1.838
7.931 128.4 19.37 9.500
21685.0 0 127.5 19.37 1.184 1.838
7.943 128.4 19.37 9.500
21684.7 0 127.5 19.37 1.184 1.839
7.955 128.4 19.37 9.500
21684.5 0 127.5 19.37 1.184 1.839
7.967 128.4 19.37 9.500
21684.3 0 127.5 19.37 1.184 1.839
7.979 128.4 19.37 9.500
21683.9 0 127.5 19.37 1.184 1.839
7.991 128.4 19.37 9.500
21683.7 0 127.5 19.37 1.184 1.840
8.003 128.4 19.37 9.500
21683.5 0 127.5 19.37 1.184 1.840
8.015 128.4 19.37 9.500
21683.3 0 127.5 19.37 1.184 1.840
8.028 128.4 19.37 9.500
21683.1 0 127.5 19.37 1.184 1.841
8.040 128.4 19.37 9.500
21682.8 0 127.5 19.37 1.184 1.841
8.052 128.4 19.37 9.500
21682.6 0 127.5 19.37 1.184 1.841
8.065 128.4 19.37 9.500
21682.5 0 127.6 19.37 1.184 1.841
8.077 128.4 19.37 9.500
21682.2 0 127.6 19.37 1.184 1.842
8.089 128.4 19.37 9.500
21682.1 0 127.6 19.37 1.184 1.842
8.102 128.4 19.37 9.500
21681.8 0 127.6 19.37 1.184 1.842
8.112 128.4 19.37 9.500
21681.7 0 127.6 19.37 1.184 1.843
8.124 128.4 19.37 9.500
21681.5 0 127.6 19.37 1.184 1.843
8.135 128.4 19.37 9.500
21681.3 0 127.6 19.37 1.184 1.843
8.145 128.4 19.37 9.500
21681.2 0 127.6 19.37 1.184 1.844
8.159 128.4 19.37 9.500
21681.0 0 127.6 19.37 1.184 1.844
8.172 128.4 19.37 9.500
21680.8 0 127.6 19.37 1.184 1.844
8.185 128.4 19.37 9.500
21680.6 0 127.6 19.37 1.184 1.844
8.198 128.4 19.37 9.500
21680.5 0 127.6 19.37 1.184 1.845
8.211 128.4 19.37 9.500
21680.3 0 127.6 19.37 1.184 1.845
8.224 128.4 19.37 9.500
21680.2 0 127.6 19.37 1.183 1.845
8.237 128.4 19.37 9.500
21680.0 0 127.6 19.37 1.183 1.845
8.250 128.4 19.37 9.500
21679.9 0 127.6 19.37 1.183 1.846
8.263 128.4 19.37 9.500
21679.7 0 127.6 19.37 1.183 1.846
8.274 128.4 19.37 9.500
21679.6 0 127.6 19.37 1.183 1.846
8.287 128.4 19.37 9.500
21679.4 0 127.6 19.37 1.183 1.847
8.300 128.4 19.37 9.500
21679.3 0 127.6 19.37 1.183 1.847
8.313 128.4 19.37 9.500
21679.2 0 127.6 19.37 1.183 1.847
8.326 128.4 19.37 9.500
21679.1 0 127.6 19.37 1.183 1.847
8.339 128.4 19.37 9.500
21678.9 0 127.6 19.37 1.183 1.848
8.352 128.4 19.37 9.500
21678.8 0 127.6 19.37 1.183 1.848
8.363 128.4 19.37 9.500
21678.7 0 127.6 19.37 1.183 1.848
8.376 128.4 19.37 9.500
21678.5 0 127.6 19.37 1.183 1.848
8.390 128.4 19.37 9.500
21678.3 0 127.6 19.37 1.183 1.849
8.400 128.4 19.37 9.500
21678.2 0 127.6 19.37 1.183 1.849
8.414 128.4 19.37 9.500
21678.1 0 127.6 19.37 1.183 1.849
8.427 128.4 19.37 9.500
21677.9 0 127.6 19.37 1.183 1.850
8.438 128.4 19.37 9.500
21677.8 0 127.6 19.37 1.183 1.850
8.449 128.4 19.37 9.500
21677.7 0 127.6 19.37 1.183 1.850
8.464 128.4 19.37 9.500
21677.5 0 127.6 19.37 1.183 1.851
8.478 128.4 19.37 9.500
21677.4 0 127.6 19.37 1.183 1.851
8.491 128.4 19.37 9.500
21677.3 0 127.6 19.37 1.183 1.851
8.506 128.4 19.37 9.500
21677.2 0 127.6 19.37 1.183 1.851
8.519 128.4 19.37 9.500
21677.0 0 127.6 19.37 1.183 1.852
8.533 128.4 19.37 9.500
21677.0 0 127.6 19.37 1.183 1.852
8.547 128.4 19.37 9.500
21676.7 0 127.6 19.37 1.183 1.852
8.574 128.4 19.37 9.500
21676.5 0 127.6 19.37 1.183 1.853
8.587 128.4 19.37 9.500
21676.4 1 127.6 19.37 1.183 1.853
8.588 128.4 19.37 9.500
21676.3 0 127.6 19.37 1.183 1.853
8.602 128.4 19.37 9.500
21676.2 0 127.6 19.37 1.183 1.853
8.615 128.4 19.37 9.500
21676.0 0 127.6 19.37 1.183 1.854
8.628 128.4 19.37 9.500
21676.0 0 127.6 19.37 1.183 1.854
8.642 128.4 19.37 9.500
21675.7 0 127.6 19.37 1.183 1.854
8.669 128.4 19.37 9.500
21675.6 0 127.6 19.37 1.183 1.855
8.682 128.4 19.37 9.500
21675.5 0 127.6 19.37 1.183 1.855
8.696 128.4 19.37 9.500
21675.4 0 127.6 19.37 1.183 1.855
8.709 128.4 19.37 9.500
21675.3 1 127.6 19.37 1.183 1.855
8.711 128.4 19.37 9.500
21675.2 0 127.6 19.37 1.183 1.856
8.724 128.4 19.37 9.500
21675.1 0 127.6 19.37 1.183 1.856
8.737 128.4 19.37 9.500
21674.9 0 127.6 19.37 1.183 1.856
8.750 128.4 19.37 9.500
21674.8 0 127.6 19.37 1.183 1.856
8.764 128.4 19.37 9.500
21674.6 1 127.6 19.37 1.183 1.856
8.765 128.4 19.37 9.500
21674.5 0 127.6 19.37 1.183 1.857
8.779 128.4 19.37 9.500
21674.5 0 127.6 19.37 1.183 1.857
8.792 128.4 19.37 9.500
21674.4 0 127.6 19.37 1.183 1.857
8.806 128.4 19.37 9.500
21674.4 0 127.6 19.37 1.183 1.857
8.820 128.4 19.37 9.500
21674.2 0 127.6 19.37 1.183 1.858
8.830 128.4 19.37 9.500
21674.2 0 127.6 19.37 1.183 1.858
8.844 128.4 19.37 9.500
21674.1 0 127.6 19.37 1.183 1.858
8.859 128.4 19.37 9.500
21673.9 1 127.6 19.37 1.183 1.858
8.860 128.4 19.37 9.500
21673.9 0 127.6 19.37 1.183 1.859
8.874 128.4 19.37 9.500
21673.8 0 127.6 19.37 1.183 1.859
8.888 128.4 19.37 9.500
21673.7 0 127.6 19.37 1.183 1.859
8.901 128.4 19.37 9.500
21673.6 0 127.6 19.37 1.183 1.860
8.915 128.4 19.37 9.500
21673.5 0 127.6 19.37 1.183 1.860
8.929 128.4 19.37 9.500
21673.4 0 127.6 19.37 1.183 1.860
8.942 128.4 19.37 9.500
21673.4 0 127.6 19.37 1.183 1.860
8.956 128.4 19.37 9.500
21673.3 0 127.6 19.37 1.183 1.861
8.970 128.4 19.37 9.500
21673.2 0 127.6 19.37 1.183 1.861
8.984 128.4 19.37 9.500
21673.1 0 127.6 19.37 1.183 1.861
8.997 128.4 19.37 9.500
21673.1 0 127.6 19.37 1.183 1.861
9.012 128.4 19.37 9.500
21673.0 0 127.6 19.37 1.183 1.862
9.025 128.4 19.37 9.500
21672.9 0 127.6 19.37 1.183 1.862
9.039 128.4 19.37 9.500
21672.8 0 127.6 19.37 1.183 1.862
9.053 128.4 19.37 9.500
21672.7 0 127.6 19.37 1.183 1.863
9.067 128.4 19.37 9.500
21672.7 0 127.6 19.37 1.183 1.863
9.081 128.4 19.37 9.500
21672.5 0 127.6 19.37 1.183 1.863
9.094 128.4 19.37 9.500
21672.4 0 127.6 19.37 1.183 1.863
9.108 128.4 19.37 9.500
21672.3 0 127.6 19.37 1.183 1.864
9.122 128.4 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
1.48E-05 | 0.00 0.00 -0.97 0.26 -0.01 0.00 0.00
4.46E-05 | 0.00 0.00 -0.26 -0.97 0.02 0.00 0.00
1.74E-02 | -1.00 -0.02 0.00 0.00 0.01 -0.09 -0.01
1.48E-02 | -0.09 0.00 0.00 0.00 0.00 0.99 0.04
2.10E+00 | 0.00 0.30 0.00 0.00 -0.04 0.03 -0.95
4.40E+00 | 0.02 -0.95 0.00 0.00 -0.01 0.02 -0.30
1.22E+02 | 0.01 0.00 0.00 0.02 1.00 0.00 -0.04
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 127.616 +/- 0.149407 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.04683 1
3 3 1 gaussian norm 1.18271 +/- 0.642748E-02 1
4 4 2 powerlaw PhoIndex 1.86377 +/- 0.244324 1
5 5 2 powerlaw norm 9.12203 +/- 11.0480 1
6 6 3 gaussian LineE keV 128.425 +/- 0.139273 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.58601 2
8 3 3 gaussian norm 1.18271 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 9.12203 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 21672.34 using 198 PHA bins.
Reduced chi-squared = 114.0649 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 (110.012) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square (110.012) > 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 200. reset by matrix bound to 198.
Model flux 1.180 photons ( 2.4813E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.098 photons ( 2.3098E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:01 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.477 +/- 5.8974E-03
Net count rate (cts/s) for file 2 2.477 +/- 5.8974E-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 = 514558.2 using 168 PHA bins.
Reduced chi-squared = 3215.989 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12951.85 using 168 PHA bins.
Reduced chi-squared = 80.94906 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
763.344 -3 87.95 11.92 0.1577 0.8751
0.4536 88.81 11.42 0.8719
451.058 -4 84.21 12.10 0.1593 0.8676
0.4305 86.62 11.87 0.8682
437.649 -5 84.48 10.43 0.1490 0.8509
0.4058 86.54 11.15 0.8519
432.454 -6 84.19 11.18 0.1562 0.8607
0.4185 86.53 11.61 0.8608
431.705 -7 84.31 10.90 0.1533 0.8564
0.4132 86.53 11.41 0.8569
431.577 -8 84.26 11.02 0.1547 0.8584
0.4158 86.53 11.50 0.8588
431.545 -9 84.28 10.97 0.1541 0.8575
0.4147 86.53 11.46 0.8580
431.542 -10 84.27 10.99 0.1544 0.8579
0.4152 86.53 11.48 0.8583
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.76E-07 | 0.00 0.00 -0.27 0.54 -0.61 0.00 0.00 0.52
1.03E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.33E-06 | 0.00 0.04 -0.96 -0.12 0.21 0.00 0.03 -0.13
4.82E-04 | 0.02 0.18 -0.04 -0.45 -0.75 0.02 0.14 -0.43
1.35E-03 | 0.00 -0.74 -0.01 -0.02 -0.03 0.01 0.67 -0.01
4.02E-03 | 0.01 -0.65 -0.06 -0.11 -0.16 0.00 -0.73 -0.11
8.48E-02 | -0.46 0.00 0.00 -0.01 -0.02 -0.89 0.00 -0.01
7.09E-02 | 0.89 0.00 0.00 0.00 0.01 -0.46 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 84.2674 +/- 0.271586 1
2 2 1 gaussian Sigma keV 10.9929 +/- 0.493744E-01 1
3 3 1 gaussian norm 0.154376 +/- 0.448521E-02 1
4 4 2 powerlaw PhoIndex 0.857903 +/- 0.128081E-01 1
5 5 2 powerlaw norm 0.415167 +/- 0.204995E-01 1
6 6 3 gaussian LineE keV 86.5286 +/- 0.286130 2
7 7 3 gaussian Sigma keV 11.4800 +/- 0.524028E-01 2
8 3 3 gaussian norm 0.154376 = par 3 2
9 8 4 powerlaw PhoIndex 0.858309 +/- 0.123089E-01 2
10 5 4 powerlaw norm 0.415167 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 431.5424 using 168 PHA bins.
Reduced chi-squared = 2.697140 for 160 degrees of freedom
Null hypothesis probability = 8.352E-27
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.584) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.584) > 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 1.012 photons ( 1.2409E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.010 photons ( 1.2445E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
39.88559
=====best line=====
84.2700 0.271838
=====best sigma=====
10.9866 0.494819E-01
=====norm=====
0.154306 0.449436E-02
=====phoindx=====
0.857809 0.128238E-01
=====pow_norm=====
0.415053 0.205359E-01
=====best line=====
86.5289 0.286253
=====best sigma=====
11.4752 0.524998E-01
=====norm=====
0.154306 par
=====phoindx=====
0.858226 0.123238E-01
=====pow_norm=====
0.415053 par
=====redu_chi=====
2.697129
=====area_flux=====
1.012
=====area_flux_f=====
1.010
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 4 1 640 2000 1348.32 0 0.154306 0.449436E-02 10.9866 0.494819E-01 0.857809 0.128238E-01 0.415053 0.205359E-01 1.012 640 2000 1384.4624 0 0.154306 0.449436E-02 11.4752 0.524998E-01 0.858226 0.123238E-01 0.415053 0.205359E-01 1.010 2.697129 0
=====redu_chi=====
548.6078
=====best line=====
127.616 0.149407
=====best sigma=====
19.3655 2.04683
=====norm=====
1.18271 0.642748E-02
=====phoindx=====
1.86377 0.244324
=====pow_norm=====
9.12203 11.0480
=====best line=====
128.425 0.139273
=====best sigma=====
19.3655 1.58601
=====norm=====
1.18271 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
9.12203 par
=====redu_chi=====
114.0649
=====area_flux=====
1.180
=====area_flux_f=====
1.098
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 4 1 1600 3200 2041.856 0 1.18271 0.642748E-02 309.848 32.74928 1.86377 0.244324 9.12203 11.0480 1.180 1600 3200 2054.8 0 1.18271 0.642748E-02 309.848 25.37616 9.50000 -1.00000 9.12203 11.0480 1.098 114.0649 1
=====redu_chi=====
80.94906
=====best line=====
84.2674 0.271586
=====best sigma=====
10.9929 0.493744E-01
=====norm=====
0.154376 0.448521E-02
=====phoindx=====
0.857903 0.128081E-01
=====pow_norm=====
0.415167 0.204995E-01
=====best line=====
86.5286 0.286130
=====best sigma=====
11.4800 0.524028E-01
=====norm=====
0.154376 par
=====phoindx=====
0.858309 0.123089E-01
=====pow_norm=====
0.415167 par
=====redu_chi=====
2.697140
=====area_flux=====
1.012
=====area_flux_f=====
1.010
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 4 1 640 2000 1348.2784 0 0.154376 0.448521E-02 10.9929 0.493744E-01 0.857903 0.128081E-01 0.415167 0.204995E-01 1.012 640 2000 1384.4576 0 0.154376 0.448521E-02 11.4800 0.524028E-01 0.858309 0.123089E-01 0.415167 0.204995E-01 1.010 2.697140 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:01 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.509 +/- 5.9362E-03
Net count rate (cts/s) for file 2 2.509 +/- 5.9362E-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 = 596937.6 using 168 PHA bins.
Reduced chi-squared = 3730.860 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16681.02 using 168 PHA bins.
Reduced chi-squared = 104.2563 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6842.75 -3 82.69 16.35 0.1783 1.046
0.6405 82.22 16.38 1.038
3627.14 -4 73.47 8.247 0.1022 0.8085
0.2958 72.20 7.980 0.8195
1713.76 -2 75.10 14.25 0.1526 0.8507
0.3695 75.00 17.00 0.8500
1147.81 0 74.64 11.24 0.1623 0.8494
0.3715 73.16 8.603 0.8505
954.140 -1 75.08 10.13 0.1568 0.8518
0.3816 74.49 13.01 0.8539
749.877 -2 75.44 9.930 0.1477 0.8885
0.4440 75.07 9.794 0.8894
739.451 -2 75.58 9.984 0.1540 0.9183
0.5034 75.60 12.30 0.9195
599.828 -2 75.80 9.866 0.1470 0.9400
0.5589 75.59 9.846 0.9411
590.178 0 75.78 9.828 0.1489 0.9395
0.5605 75.71 9.961 0.9412
586.763 -1 75.76 9.898 0.1519 0.9418
0.5657 75.79 10.46 0.9441
556.609 -2 75.88 9.897 0.1524 0.9610
0.6100 75.88 10.07 0.9625
536.583 -2 75.96 9.929 0.1532 0.9755
0.6494 76.00 10.17 0.9772
536.003 -3 76.22 9.940 0.1542 1.016
0.7604 76.26 10.12 1.017
505.909 -4 76.30 9.997 0.1552 1.031
0.8185 76.35 10.17 1.032
503.836 -5 76.32 9.990 0.1549 1.031
0.8228 76.36 10.13 1.033
503.818 -6 76.32 9.988 0.1551 1.030
0.8228 76.36 10.15 1.033
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
8.42E-07 | 0.00 0.00 -0.34 0.63 -0.36 0.00 0.00 0.60
1.09E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
6.17E-06 | 0.00 0.02 -0.94 -0.22 0.14 0.00 0.03 -0.22
1.20E-03 | 0.04 0.02 -0.01 -0.27 -0.92 0.04 0.10 -0.26
2.04E-03 | 0.00 -0.31 0.02 0.03 0.08 0.02 0.95 0.03
6.91E-03 | 0.04 0.95 0.03 0.02 0.04 0.03 0.30 0.02
6.48E-02 | -0.61 0.05 0.00 -0.01 -0.05 -0.79 0.03 -0.01
5.42E-02 | -0.79 0.02 0.00 0.00 -0.01 0.62 -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 76.3179 +/- 0.240835 1
2 2 1 gaussian Sigma keV 9.98792 +/- 0.811900E-01 1
3 3 1 gaussian norm 0.155066 +/- 0.348082E-02 1
4 4 2 powerlaw PhoIndex 1.03049 +/- 0.103961E-01 1
5 5 2 powerlaw norm 0.822780 +/- 0.343182E-01 1
6 6 3 gaussian LineE keV 76.3575 +/- 0.246101 2
7 7 3 gaussian Sigma keV 10.1521 +/- 0.504171E-01 2
8 3 3 gaussian norm 0.155066 = par 3 2
9 8 4 powerlaw PhoIndex 1.03268 +/- 0.996755E-02 2
10 5 4 powerlaw norm 0.822780 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 503.8181 using 168 PHA bins.
Reduced chi-squared = 3.148863 for 160 degrees of freedom
Null hypothesis probability = 3.208E-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 ( 3.017) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.017) > 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 125. reset by matrix bound to 124.
Model flux 0.9699 photons ( 1.1535E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9624 photons ( 1.1445E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:01 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.010 +/- 9.1867E-03
Net count rate (cts/s) for file 2 6.010 +/- 9.1867E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.501 +/- 1.0938E-02( 58.2% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.501 +/- 1.0938E-02( 58.2% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.3038963E+07 using 198 PHA bins.
Reduced chi-squared = 68626.12 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 86474.92 using 198 PHA bins.
Reduced chi-squared = 455.1312 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
48640.6 -3 111.9 19.32 0.3866 2.771
0.1152 108.1 19.31 2.721
17902.8 -2 115.7 19.36 1.248 7.103
5.7137E-02 113.2 19.35 9.093
15841.8 -2 114.5 19.36 1.208 9.066
1.7908E-02 111.7 19.36 9.413
15660.7 -1 114.6 19.36 1.196 9.341
3.3680E-03 111.6 19.37 9.475
15096.8 0 115.1 19.37 1.172 9.448
6.3957E-04 111.4 19.17 9.495
14967.5 0 115.4 19.37 1.157 9.486
3.5903E-05 111.5 19.12 9.498
14913.1 0 115.7 19.37 1.147 9.493
1.4258E-05 111.6 19.09 9.500
14870.9 0 115.9 19.37 1.140 9.498
3.2449E-06 111.7 19.04 9.500
14842.5 0 116.1 19.37 1.134 9.500
4.8017E-07 111.8 19.00 9.500
14819.2 0 116.2 19.37 1.129 9.500
1.3430E-07 112.0 18.95 9.500
14803.1 0 116.3 19.37 1.126 9.500
4.7908E-08 112.1 18.91 9.500
14550.0 0 116.4 19.37 1.113 9.500
5.6635E-10 112.2 18.59 9.500
14534.8 0 116.4 19.37 1.110 9.500
1.1568E-10 112.3 18.54 9.500
14525.1 0 116.4 19.37 1.108 9.500
3.3334E-12 112.4 18.51 9.500
14517.9 0 116.5 19.37 1.106 9.500
1.5811E-12 112.5 18.47 9.500
14512.2 0 116.5 19.37 1.105 9.500
7.0741E-13 112.6 18.45 9.500
14506.9 0 116.5 19.37 1.104 9.500
2.7145E-13 112.6 18.42 9.500
Fit parameter 5 has pegged
14495.7 -1 116.1 19.37 1.089 9.500
0.000 112.7 17.14 9.500
Fit parameter 5 has pegged
14357.9 -2 115.8 19.37 1.102 9.500
0.000 112.5 17.98 9.500
Fit parameter 5 has pegged
14331.7 -3 116.0 19.37 1.089 9.500
0.000 112.8 17.69 9.500
Fit parameter 5 has pegged
14326.0 -1 116.1 19.37 1.089 9.500
0.000 112.8 17.80 9.500
Fit parameter 5 has pegged
14325.5 -2 116.1 19.37 1.088 9.500
0.000 112.8 17.75 9.500
Fit parameter 5 has pegged
14323.7 -1 116.1 19.37 1.087 9.500
0.000 112.8 17.77 9.500
Fit parameter 5 has pegged
14321.6 -1 116.1 19.37 1.087 9.500
0.000 112.8 17.76 9.500
Fit parameter 5 has pegged
14317.3 0 116.2 19.37 1.085 9.500
0.000 112.8 17.75 9.500
Fit parameter 5 has pegged
14315.0 0 116.3 19.37 1.084 9.500
0.000 112.8 17.75 9.500
Fit parameter 5 has pegged
14313.6 0 116.3 19.37 1.083 9.500
0.000 112.9 17.74 9.500
Fit parameter 5 has pegged
14312.7 0 116.4 19.37 1.082 9.500
0.000 112.9 17.74 9.500
Fit parameter 5 has pegged
14312.3 0 116.4 19.37 1.082 9.500
0.000 112.9 17.73 9.500
Fit parameter 5 has pegged
14311.8 0 116.4 19.37 1.081 9.500
0.000 112.9 17.73 9.500
Fit parameter 5 has pegged
14311.2 0 116.4 19.37 1.081 9.500
0.000 112.9 17.72 9.500
Fit parameter 5 has pegged
14311.0 0 116.4 19.37 1.081 9.500
0.000 112.9 17.72 9.500
Fit parameter 5 has pegged
14310.6 0 116.4 19.37 1.080 9.500
0.000 112.9 17.72 9.500
Fit parameter 5 has pegged
14310.6 0 116.4 19.37 1.080 9.500
0.000 112.9 17.72 9.500
Fit parameter 5 has pegged
14310.5 0 116.4 19.37 1.080 9.500
0.000 112.9 17.71 9.500
Fit parameter 5 has pegged
14310.5 0 116.4 19.37 1.080 9.500
0.000 112.9 17.71 9.500
Fit parameter 5 has pegged
14310.3 0 116.4 19.37 1.080 9.500
0.000 112.9 17.71 9.500
Fit parameter 5 has pegged
14310.3 0 116.4 19.37 1.080 9.500
0.000 113.0 17.71 9.500
Fit parameter 5 has pegged
14310.1 0 116.4 19.37 1.079 9.500
0.000 113.0 17.71 9.500
Fit parameter 5 has pegged
14310.0 0 116.5 19.37 1.079 9.500
0.000 113.0 17.71 9.500
Fit parameter 5 has pegged
14309.9 0 116.5 19.37 1.079 9.500
0.000 113.0 17.71 9.500
Fit parameter 5 has pegged
14309.8 0 116.5 19.37 1.079 9.500
0.000 113.0 17.71 9.500
Fit parameter 5 has pegged
14309.7 0 116.5 19.37 1.079 9.500
0.000 113.0 17.71 9.500
Fit parameter 5 has pegged
14309.5 0 116.5 19.37 1.079 9.500
0.000 113.0 17.71 9.500
Fit parameter 5 has pegged
14309.5 0 116.5 19.37 1.079 9.500
0.000 113.0 17.71 9.500
Fit parameter 5 has pegged
14309.4 0 116.5 19.37 1.079 9.500
0.000 113.0 17.71 9.500
Fit parameter 5 has pegged
14309.3 0 116.5 19.37 1.079 9.500
0.000 113.0 17.71 9.500
Fit parameter 5 has pegged
14309.2 0 116.5 19.37 1.079 9.500
0.000 113.0 17.71 9.500
Fit parameter 5 has pegged
14309.1 0 116.5 19.37 1.078 9.500
0.000 113.0 17.70 9.500
Fit parameter 5 has pegged
14309.1 4 116.5 19.37 1.078 9.500
0.000 113.0 17.70 9.500
14309.1 4 116.5 19.37 1.078 9.500
0.000 113.0 17.70 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.57E-05 | -0.01 0.00 -1.00 -0.01 0.01
4.51E-03 | 0.01 0.00 0.00 0.46 0.89
1.69E-02 | -0.96 -0.07 0.01 0.23 -0.11
3.39E-02 | 0.25 0.06 -0.02 0.85 -0.45
2.34E+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 116.507 +/- 0.183239 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.52507 1
3 3 1 gaussian norm 1.07848 +/- 0.565420E-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 112.963 +/- 0.170786 2
7 7 3 gaussian Sigma keV 17.7049 +/- 0.106609 2
8 3 3 gaussian norm 1.07848 = 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 = 14309.11 using 198 PHA bins.
Reduced chi-squared = 75.31110 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 72.635) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 72.635) > 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 0.8659 photons ( 1.7092E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8281 photons ( 1.5922E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:02 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.509 +/- 5.9362E-03
Net count rate (cts/s) for file 2 2.509 +/- 5.9362E-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 = 698753.5 using 168 PHA bins.
Reduced chi-squared = 4367.209 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 25539.70 using 168 PHA bins.
Reduced chi-squared = 159.6231 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
14449.7 -3 85.74 13.83 0.1243 1.094
0.7104 85.39 13.69 1.082
2215.84 -4 71.20 16.56 0.1842 1.002
0.7587 70.22 16.16 1.009
1749.83 -2 81.04 5.664 8.2209E-02 1.024
0.8440 79.96 6.975 1.025
717.779 -3 78.52 9.902 0.1252 1.043
0.8939 77.24 9.991 1.045
592.341 -1 76.29 11.62 0.1493 1.045
0.8825 76.46 9.962 1.047
510.922 -2 76.86 9.893 0.1520 1.043
0.8716 76.48 10.05 1.045
507.495 0 76.63 9.934 0.1528 1.043
0.8711 76.47 10.05 1.045
507.365 -1 76.41 10.25 0.1553 1.043
0.8685 76.44 10.20 1.045
504.955 -2 76.43 9.990 0.1552 1.041
0.8591 76.42 10.13 1.043
503.931 -3 76.33 9.997 0.1554 1.033
0.8324 76.37 10.17 1.036
503.840 -4 76.32 9.992 0.1550 1.030
0.8231 76.36 10.13 1.033
503.819 -5 76.32 9.989 0.1551 1.030
0.8228 76.36 10.15 1.033
503.818 0 76.32 9.989 0.1551 1.030
0.8228 76.36 10.15 1.033
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.42E-07 | 0.00 0.00 -0.34 0.63 -0.36 0.00 0.00 0.60
1.09E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
6.16E-06 | 0.00 0.02 -0.94 -0.22 0.14 0.00 0.03 -0.22
1.20E-03 | 0.04 0.02 -0.01 -0.27 -0.92 0.04 0.10 -0.26
2.05E-03 | 0.00 -0.32 0.02 0.03 0.08 0.02 0.94 0.03
6.75E-03 | 0.04 0.95 0.03 0.02 0.04 0.03 0.31 0.02
6.47E-02 | -0.62 0.05 0.00 -0.01 -0.05 -0.78 0.03 -0.01
5.42E-02 | -0.79 0.02 0.00 0.00 -0.01 0.62 -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 76.3183 +/- 0.240866 1
2 2 1 gaussian Sigma keV 9.98858 +/- 0.800891E-01 1
3 3 1 gaussian norm 0.155054 +/- 0.348117E-02 1
4 4 2 powerlaw PhoIndex 1.03047 +/- 0.103956E-01 1
5 5 2 powerlaw norm 0.822753 +/- 0.343156E-01 1
6 6 3 gaussian LineE keV 76.3574 +/- 0.246040 2
7 7 3 gaussian Sigma keV 10.1490 +/- 0.506197E-01 2
8 3 3 gaussian norm 0.155054 = par 3 2
9 8 4 powerlaw PhoIndex 1.03267 +/- 0.996716E-02 2
10 5 4 powerlaw norm 0.822753 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 503.8185 using 168 PHA bins.
Reduced chi-squared = 3.148865 for 160 degrees of freedom
Null hypothesis probability = 3.207E-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 ( 3.017) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.017) > 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 125. reset by matrix bound to 124.
Model flux 0.9699 photons ( 1.1536E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9624 photons ( 1.1445E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
104.2563
=====best line=====
76.3179 0.240835
=====best sigma=====
9.98792 0.811900E-01
=====norm=====
0.155066 0.348082E-02
=====phoindx=====
1.03049 0.103961E-01
=====pow_norm=====
0.822780 0.343182E-01
=====best line=====
76.3575 0.246101
=====best sigma=====
10.1521 0.504171E-01
=====norm=====
0.155066 par
=====phoindx=====
1.03268 0.996755E-02
=====pow_norm=====
0.822780 par
=====redu_chi=====
3.148863
=====area_flux=====
0.9699
=====area_flux_f=====
0.9624
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 5 1 640 2000 1221.0864 0 0.155066 0.348082E-02 9.98792 0.811900E-01 1.03049 0.103961E-01 0.822780 0.343182E-01 0.9699 640 2000 1221.72 0 0.155066 0.348082E-02 10.1521 0.504171E-01 1.03268 0.996755E-02 0.822780 0.343182E-01 0.9624 3.148863 1
=====redu_chi=====
455.1312
=====best line=====
116.507 0.183239
=====best sigma=====
19.3655 1.52507
=====norm=====
1.07848 0.565420E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
112.963 0.170786
=====best sigma=====
17.7049 0.106609
=====norm=====
1.07848 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
75.31110
=====area_flux=====
0.8659
=====area_flux_f=====
0.8281
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 5 1 1600 3200 1864.112 0 1.07848 0.565420E-02 309.848 24.40112 9.50000 -1.00000 0.00000 -1.00000 0.8659 1600 3200 1807.408 0 1.07848 0.565420E-02 283.2784 1.705744 9.50000 -1.00000 0.00000 -1.00000 0.8281 75.31110 1
=====redu_chi=====
159.6231
=====best line=====
76.3183 0.240866
=====best sigma=====
9.98858 0.800891E-01
=====norm=====
0.155054 0.348117E-02
=====phoindx=====
1.03047 0.103956E-01
=====pow_norm=====
0.822753 0.343156E-01
=====best line=====
76.3574 0.246040
=====best sigma=====
10.1490 0.506197E-01
=====norm=====
0.155054 par
=====phoindx=====
1.03267 0.996716E-02
=====pow_norm=====
0.822753 par
=====redu_chi=====
3.148865
=====area_flux=====
0.9699
=====area_flux_f=====
0.9624
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 5 1 640 2000 1221.0928 0 0.155054 0.348117E-02 9.98858 0.800891E-01 1.03047 0.103956E-01 0.822753 0.343156E-01 0.9699 640 2000 1221.7184 0 0.155054 0.348117E-02 10.1490 0.506197E-01 1.03267 0.996716E-02 0.822753 0.343156E-01 0.9624 3.148865 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:02 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.414 +/- 5.8223E-03
Net count rate (cts/s) for file 2 2.414 +/- 5.8223E-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 = 534810.9 using 168 PHA bins.
Reduced chi-squared = 3342.568 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11018.05 using 168 PHA bins.
Reduced chi-squared = 68.86280 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1615.57 -3 84.21 15.97 0.1844 0.8855
0.4324 84.56 15.46 0.8819
1242.64 -3 77.64 8.824 9.9049E-02 0.7778
0.2800 79.30 8.934 0.7807
752.075 -4 78.35 9.806 0.1380 0.8464
0.3657 80.72 12.07 0.8430
470.273 -5 78.40 9.037 0.1295 0.8403
0.3786 80.39 9.748 0.8396
460.597 -6 78.26 9.557 0.1377 0.8469
0.3857 80.49 9.766 0.8465
460.265 -7 78.33 9.405 0.1367 0.8466
0.3860 80.49 9.713 0.8464
460.233 -8 78.31 9.455 0.1372 0.8468
0.3860 80.49 9.740 0.8466
460.229 -9 78.32 9.438 0.1370 0.8467
0.3860 80.49 9.729 0.8465
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.49E-07 | 0.00 0.00 -0.26 0.52 -0.64 0.00 0.00 0.50
1.03E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.36E-06 | 0.00 0.01 -0.96 -0.12 0.19 0.00 0.01 -0.13
4.01E-04 | 0.02 0.01 -0.02 -0.48 -0.75 0.02 0.01 -0.46
4.15E-02 | -0.12 -0.73 0.00 0.00 0.00 0.10 0.66 0.00
8.73E-02 | -0.21 0.63 0.01 0.00 0.00 -0.26 0.70 0.00
5.91E-02 | 0.88 -0.06 0.00 0.00 0.01 -0.43 0.16 0.00
6.45E-02 | -0.40 -0.25 0.00 -0.01 -0.02 -0.86 -0.22 -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 78.3177 +/- 0.246721 1
2 2 1 gaussian Sigma keV 9.43816 +/- 0.247427 1
3 3 1 gaussian norm 0.137016 +/- 0.324623E-02 1
4 4 2 powerlaw PhoIndex 0.846680 +/- 0.102992E-01 1
5 5 2 powerlaw norm 0.385979 +/- 0.159116E-01 1
6 6 3 gaussian LineE keV 80.4885 +/- 0.254486 2
7 7 3 gaussian Sigma keV 9.72940 +/- 0.255814 2
8 3 3 gaussian norm 0.137016 = par 3 2
9 8 4 powerlaw PhoIndex 0.846480 +/- 0.989219E-02 2
10 5 4 powerlaw norm 0.385979 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 460.2294 using 168 PHA bins.
Reduced chi-squared = 2.876434 for 160 degrees of freedom
Null hypothesis probability = 7.684E-31
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.756) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.756) > 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 0.9733 photons ( 1.1801E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9740 photons ( 1.1858E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:02 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.698 +/- 8.9451E-03
Net count rate (cts/s) for file 2 5.698 +/- 8.9451E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.284 +/- 1.0673E-02( 57.6% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.284 +/- 1.0673E-02( 57.6% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 7428400. using 198 PHA bins.
Reduced chi-squared = 39096.84 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 87857.48 using 198 PHA bins.
Reduced chi-squared = 462.4078 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
46855.0 -3 120.4 18.28 0.4084 2.921
0.2212 112.4 18.18 2.875
28837.6 -2 107.2 19.20 1.489 6.618
0.1081 107.1 19.07 9.329
25589.0 0 108.5 19.30 1.409 8.795
3.4478E-02 108.6 19.25 9.491
23153.8 0 110.0 19.35 1.354 9.293
1.4031E-02 110.3 19.34 9.499
21296.6 0 111.5 19.36 1.315 9.409
9.1612E-04 111.9 19.36 9.500
19841.0 0 112.9 19.36 1.284 9.499
5.2076E-05 113.3 19.37 9.500
18731.8 0 114.2 19.37 1.259 9.500
9.2187E-06 114.5 19.37 9.500
17901.2 0 115.3 19.37 1.238 9.500
3.1939E-06 115.6 19.37 9.500
17306.3 0 116.2 19.37 1.222 9.500
1.5577E-06 116.4 19.37 9.500
16874.2 0 116.9 19.37 1.209 9.500
6.9340E-07 117.0 19.37 9.500
16560.6 0 117.6 19.37 1.197 9.500
2.3783E-07 117.5 19.37 9.500
16006.7 0 118.9 19.37 1.171 9.500
4.9426E-10 118.3 19.37 9.500
15908.0 0 119.2 19.37 1.165 9.500
1.4417E-10 118.4 19.37 9.500
15833.5 0 119.5 19.37 1.161 9.500
5.5766E-11 118.6 19.37 9.500
15779.4 0 119.7 19.37 1.157 9.500
1.1162E-11 118.7 19.37 9.500
15738.7 0 119.8 19.37 1.155 9.500
5.5484E-12 118.7 19.37 9.500
15705.5 0 120.0 19.37 1.152 9.500
2.7325E-12 118.8 19.37 9.500
15684.5 0 120.1 19.37 1.151 9.500
1.3258E-12 118.8 19.37 9.500
15662.4 0 120.1 19.37 1.149 9.500
6.1199E-13 118.9 19.37 9.500
Fit parameter 5 has pegged
15601.1 0 120.2 19.37 1.142 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
15587.6 0 120.3 19.37 1.140 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
15581.1 0 120.3 19.37 1.138 9.500
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
15577.7 0 120.3 19.37 1.138 9.500
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
15548.0 0 120.4 19.37 1.134 9.500
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
15521.2 0 120.4 19.37 1.131 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
15496.9 0 120.5 19.37 1.128 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
15474.8 0 120.6 19.37 1.125 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
15454.7 0 120.7 19.37 1.123 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
15436.5 0 120.7 19.37 1.120 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
15419.7 0 120.8 19.37 1.118 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
15404.4 0 120.9 19.37 1.116 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
15390.4 0 120.9 19.37 1.114 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
15377.6 0 121.0 19.37 1.112 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
15365.8 0 121.1 19.37 1.110 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
15354.9 0 121.1 19.37 1.109 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
15344.9 0 121.2 19.37 1.107 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
15335.6 0 121.2 19.37 1.106 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
15327.1 0 121.3 19.37 1.104 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
15319.2 0 121.3 19.37 1.103 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
15311.9 0 121.4 19.37 1.102 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
15305.3 0 121.4 19.37 1.101 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
15299.0 0 121.5 19.37 1.100 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
15293.3 0 121.5 19.37 1.099 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
15287.9 0 121.6 19.37 1.098 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
15283.0 0 121.6 19.37 1.097 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15278.5 0 121.6 19.37 1.096 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15274.2 0 121.7 19.37 1.095 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15270.2 0 121.7 19.37 1.094 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15266.6 0 121.8 19.37 1.094 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15263.2 0 121.8 19.37 1.093 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15260.0 0 121.8 19.37 1.092 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
15257.0 0 121.9 19.37 1.092 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15254.3 0 121.9 19.37 1.091 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15251.7 0 121.9 19.37 1.091 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15249.4 0 121.9 19.37 1.090 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15247.0 0 122.0 19.37 1.090 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15245.0 0 122.0 19.37 1.089 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15243.1 0 122.0 19.37 1.089 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15241.3 0 122.1 19.37 1.088 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15239.5 0 122.1 19.37 1.088 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15238.0 0 122.1 19.37 1.087 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15236.5 0 122.1 19.37 1.087 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
15235.1 0 122.1 19.37 1.087 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15233.9 0 122.2 19.37 1.086 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15232.7 0 122.2 19.37 1.086 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15231.5 0 122.2 19.37 1.086 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15230.5 0 122.2 19.37 1.085 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15229.5 0 122.2 19.37 1.085 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15228.6 0 122.2 19.37 1.085 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15227.7 0 122.3 19.37 1.085 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15226.9 0 122.3 19.37 1.084 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15226.1 0 122.3 19.37 1.084 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15225.4 0 122.3 19.37 1.084 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15224.7 0 122.3 19.37 1.084 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15224.1 0 122.3 19.37 1.084 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15223.5 0 122.3 19.37 1.083 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15222.9 0 122.4 19.37 1.083 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15222.4 0 122.4 19.37 1.083 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15221.8 0 122.4 19.37 1.083 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15221.4 0 122.4 19.37 1.083 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15220.9 0 122.4 19.37 1.083 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15220.5 0 122.4 19.37 1.082 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15220.1 0 122.4 19.37 1.082 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15219.6 0 122.4 19.37 1.082 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15219.4 0 122.4 19.37 1.082 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
15219.0 0 122.4 19.37 1.082 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15218.6 0 122.4 19.37 1.082 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15218.4 0 122.5 19.37 1.082 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15218.1 0 122.5 19.37 1.082 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15217.8 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15217.5 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15217.3 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15217.1 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15216.9 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15216.7 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15216.5 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15216.3 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15216.1 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15215.9 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15215.7 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15215.6 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15215.4 0 122.5 19.37 1.081 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15215.3 0 122.5 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15215.1 0 122.5 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15215.1 0 122.5 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.9 0 122.5 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.8 0 122.5 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.7 0 122.5 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.7 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.5 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.4 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.4 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.2 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.2 1 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.1 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.0 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15214.0 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.9 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.8 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.7 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.7 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.6 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.6 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.5 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.5 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
15213.3 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.3 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.3 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.2 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.2 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
15213.1 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.0 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15213.0 0 122.6 19.37 1.080 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.9 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.9 1 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.9 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.8 1 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.7 1 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.7 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
15212.6 1 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.6 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.6 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.5 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.5 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.5 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.5 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
15212.4 1 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.3 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.3 1 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.3 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
15212.2 0 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
15212.2 4 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
15212.2 4 122.6 19.37 1.079 9.500
0.000 119.4 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.52E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.66E-02 | 0.24 0.00 0.01 -0.97 -0.07
2.03E-02 | -0.97 -0.04 0.01 -0.24 -0.03
3.74E+00 | -0.04 0.93 0.00 -0.03 0.37
1.97E+00 | 0.01 -0.37 0.00 -0.06 0.93
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 122.623 +/- 0.158353 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.86878 1
3 3 1 gaussian norm 1.07907 +/- 0.511873E-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 119.415 +/- 0.169059 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.48213 2
8 3 3 gaussian norm 1.07907 = 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 = 15212.18 using 198 PHA bins.
Reduced chi-squared = 80.06412 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 77.219) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 77.219) > 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 0.9480 photons ( 1.9299E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9084 photons ( 1.8189E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:03 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.414 +/- 5.8223E-03
Net count rate (cts/s) for file 2 2.414 +/- 5.8223E-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 = 618539.6 using 168 PHA bins.
Reduced chi-squared = 3865.872 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 19135.54 using 168 PHA bins.
Reduced chi-squared = 119.5971 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2007.14 -3 86.27 13.62 0.1385 0.8759
0.4452 86.46 12.51 0.8704
1150.35 -4 75.79 13.62 0.1365 0.8041
0.3059 78.26 11.65 0.8062
1137.35 -4 81.49 9.047 0.1085 0.8794
0.4252 81.68 9.624 0.8747
648.970 -5 77.85 12.70 0.1385 0.8508
0.3925 80.23 9.873 0.8514
493.078 -6 79.34 9.542 0.1272 0.8499
0.3958 80.60 9.267 0.8498
461.277 -7 78.23 9.622 0.1382 0.8479
0.3878 80.51 9.861 0.8479
460.354 -8 78.35 9.378 0.1364 0.8463
0.3858 80.49 9.685 0.8462
460.242 -9 78.31 9.464 0.1373 0.8468
0.3861 80.49 9.748 0.8466
460.230 -10 78.32 9.435 0.1370 0.8467
0.3860 80.49 9.727 0.8465
460.229 -11 78.31 9.445 0.1371 0.8467
0.3860 80.49 9.734 0.8465
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
5.48E-07 | 0.00 0.00 -0.26 0.52 -0.64 0.00 0.00 0.50
1.03E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.35E-06 | 0.00 0.01 -0.96 -0.12 0.19 0.00 0.01 -0.13
4.01E-04 | 0.02 0.01 -0.02 -0.48 -0.75 0.02 0.01 -0.46
4.14E-02 | -0.12 -0.73 0.00 0.00 0.00 0.10 0.66 0.00
8.70E-02 | -0.21 0.63 0.01 0.00 0.00 -0.26 0.70 0.00
5.89E-02 | 0.89 -0.06 0.00 0.00 0.01 -0.42 0.16 0.00
6.43E-02 | -0.39 -0.25 0.00 -0.01 -0.02 -0.86 -0.22 -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 78.3147 +/- 0.246277 1
2 2 1 gaussian Sigma keV 9.44505 +/- 0.246914 1
3 3 1 gaussian norm 0.137082 +/- 0.323982E-02 1
4 4 2 powerlaw PhoIndex 0.846718 +/- 0.102931E-01 1
5 5 2 powerlaw norm 0.386007 +/- 0.158999E-01 1
6 6 3 gaussian LineE keV 80.4888 +/- 0.254300 2
7 7 3 gaussian Sigma keV 9.73430 +/- 0.255542 2
8 3 3 gaussian norm 0.137082 = par 3 2
9 8 4 powerlaw PhoIndex 0.846515 +/- 0.988626E-02 2
10 5 4 powerlaw norm 0.386007 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 460.2286 using 168 PHA bins.
Reduced chi-squared = 2.876429 for 160 degrees of freedom
Null hypothesis probability = 7.686E-31
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.756) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.756) > 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 0.9733 photons ( 1.1801E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9740 photons ( 1.1858E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
68.86280
=====best line=====
78.3177 0.246721
=====best sigma=====
9.43816 0.247427
=====norm=====
0.137016 0.324623E-02
=====phoindx=====
0.846680 0.102992E-01
=====pow_norm=====
0.385979 0.159116E-01
=====best line=====
80.4885 0.254486
=====best sigma=====
9.72940 0.255814
=====norm=====
0.137016 par
=====phoindx=====
0.846480 0.989219E-02
=====pow_norm=====
0.385979 par
=====redu_chi=====
2.876434
=====area_flux=====
0.9733
=====area_flux_f=====
0.9740
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 6 1 640 2000 1253.0832 0 0.137016 0.324623E-02 9.43816 0.247427 0.846680 0.102992E-01 0.385979 0.159116E-01 0.9733 640 2000 1287.816 0 0.137016 0.324623E-02 9.72940 0.255814 0.846480 0.989219E-02 0.385979 0.159116E-01 0.9740 2.876434 0
=====redu_chi=====
462.4078
=====best line=====
122.623 0.158353
=====best sigma=====
19.3655 1.86878
=====norm=====
1.07907 0.511873E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.415 0.169059
=====best sigma=====
19.3655 1.48213
=====norm=====
1.07907 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
80.06412
=====area_flux=====
0.9480
=====area_flux_f=====
0.9084
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 6 1 1600 3200 1961.968 0 1.07907 0.511873E-02 309.848 29.90048 9.50000 -1.00000 0.00000 -1.00000 0.9480 1600 3200 1910.64 0 1.07907 0.511873E-02 309.848 23.71408 9.50000 -1.00000 0.00000 -1.00000 0.9084 80.06412 1
=====redu_chi=====
119.5971
=====best line=====
78.3147 0.246277
=====best sigma=====
9.44505 0.246914
=====norm=====
0.137082 0.323982E-02
=====phoindx=====
0.846718 0.102931E-01
=====pow_norm=====
0.386007 0.158999E-01
=====best line=====
80.4888 0.254300
=====best sigma=====
9.73430 0.255542
=====norm=====
0.137082 par
=====phoindx=====
0.846515 0.988626E-02
=====pow_norm=====
0.386007 par
=====redu_chi=====
2.876429
=====area_flux=====
0.9733
=====area_flux_f=====
0.9740
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 6 1 640 2000 1253.0352 0 0.137082 0.323982E-02 9.44505 0.246914 0.846718 0.102931E-01 0.386007 0.158999E-01 0.9733 640 2000 1287.8208 0 0.137082 0.323982E-02 9.73430 0.255542 0.846515 0.988626E-02 0.386007 0.158999E-01 0.9740 2.876429 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:03 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.849 +/- 7.3516E-03
Net count rate (cts/s) for file 2 3.849 +/- 7.3516E-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 = 201504.7 using 168 PHA bins.
Reduced chi-squared = 1259.405 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 27416.57 using 168 PHA bins.
Reduced chi-squared = 171.3536 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6480.23 -3 85.21 17.52 0.3395 0.9072
0.7314 84.52 17.36 0.9004
5102.52 -4 69.29 19.21 0.6734 0.8769
0.4950 70.20 18.98 0.8798
3282.09 -1 68.87 19.33 0.5198 0.8504
0.5196 71.56 19.27 0.8511
2408.39 -2 70.81 6.804 0.1171 0.7774
0.5059 74.43 7.567 0.7763
1823.49 -2 64.93 12.85 0.1984 0.7563
0.4358 69.38 11.21 0.7573
1316.78 -3 68.67 8.851 0.1702 0.6943
0.3311 71.62 9.430 0.6947
1174.28 -4 64.08 9.652 0.2298 0.6187
0.2256 69.20 9.489 0.6217
585.267 -5 65.91 7.811 0.2116 0.6446
0.2638 70.11 8.764 0.6424
525.530 -6 65.25 8.434 0.2241 0.6232
0.2432 69.89 9.115 0.6239
523.921 -7 65.31 8.271 0.2225 0.6256
0.2458 69.91 9.060 0.6254
523.862 -8 65.28 8.301 0.2230 0.6248
0.2450 69.90 9.074 0.6247
523.859 -9 65.29 8.294 0.2229 0.6250
0.2452 69.90 9.071 0.6249
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
2.12E-07 | 0.00 0.00 -0.11 0.42 -0.80 0.00 0.00 0.40
6.17E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.38E-06 | 0.00 0.01 -0.99 -0.07 0.06 0.00 0.01 -0.08
1.63E-04 | 0.02 -0.02 0.05 -0.58 -0.59 0.02 -0.01 -0.56
2.11E-02 | -0.17 -0.81 0.00 0.00 0.00 0.02 0.57 0.00
5.56E-02 | 0.30 -0.51 -0.01 0.02 0.02 0.46 -0.66 0.02
2.83E-02 | -0.94 -0.03 0.00 -0.01 -0.01 0.11 -0.33 -0.01
3.32E-02 | 0.03 -0.29 -0.01 0.00 0.00 -0.88 -0.37 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 65.2855 +/- 0.174732 1
2 2 1 gaussian Sigma keV 8.29366 +/- 0.176723 1
3 3 1 gaussian norm 0.222858 +/- 0.441155E-02 1
4 4 2 powerlaw PhoIndex 0.624963 +/- 0.854765E-02 1
5 5 2 powerlaw norm 0.245160 +/- 0.893013E-02 1
6 6 3 gaussian LineE keV 69.9030 +/- 0.194440 2
7 7 3 gaussian Sigma keV 9.07059 +/- 0.196392 2
8 3 3 gaussian norm 0.222858 = par 3 2
9 8 4 powerlaw PhoIndex 0.624851 +/- 0.817639E-02 2
10 5 4 powerlaw norm 0.245160 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 523.8595 using 168 PHA bins.
Reduced chi-squared = 3.274122 for 160 degrees of freedom
Null hypothesis probability = 3.056E-40
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.137) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.137) > 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 1.595 photons ( 1.9249E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.596 photons ( 1.9423E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:03 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 9.469 +/- 1.1532E-02
Net count rate (cts/s) for file 2 9.469 +/- 1.1532E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.621 +/- 1.3676E-02( 59.4% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.621 +/- 1.3676E-02( 59.4% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.5707324E+07 using 198 PHA bins.
Reduced chi-squared = 82670.12 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 110704.4 using 198 PHA bins.
Reduced chi-squared = 582.6548 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
69837.5 -3 95.02 17.64 0.6664 2.633
8.3185E-02 102.2 19.37 2.593
69692.5 2 95.08 17.66 0.6678 2.497
0.1042 102.2 19.36 2.590
68217.5 1 95.63 17.87 0.6816 1.997
0.2862 102.5 19.34 2.600
56282.7 0 100.4 18.89 0.8001 1.929
0.3891 104.2 18.90 3.312
47057.7 0 104.2 19.27 0.8979 1.915
0.4208 105.3 18.61 9.275
25393.0 0 116.0 19.34 1.297 2.108
3.4207E-02 109.1 13.51 9.448
23860.3 0 115.8 19.11 1.311 5.498
1.6325E-02 109.4 13.86 9.496
19796.9 0 115.4 16.16 1.415 8.946
7.4775E-03 110.6 15.55 9.499
18440.7 0 116.2 17.25 1.463 9.483
4.3456E-04 111.4 15.99 9.500
18412.2 0 116.2 17.28 1.466 9.493
6.9327E-05 111.4 15.97 9.500
18391.0 0 116.3 17.30 1.470 9.498
2.1404E-05 111.4 15.95 9.500
18375.6 0 116.3 17.32 1.472 9.500
9.3094E-06 111.4 15.94 9.500
18363.9 0 116.3 17.33 1.475 9.500
3.2449E-06 111.4 15.93 9.500
18355.3 0 116.3 17.35 1.477 9.500
2.1132E-07 111.4 15.91 9.500
18348.7 0 116.4 17.36 1.479 9.500
2.1686E-08 111.4 15.90 9.500
18337.6 0 116.4 17.37 1.483 9.500
3.5401E-09 111.4 15.88 9.500
18329.9 0 116.4 17.38 1.486 9.500
4.0966E-12 111.4 15.86 9.500
18327.2 0 116.4 17.38 1.487 9.500
9.7822E-13 111.4 15.85 9.500
18325.0 0 116.4 17.39 1.488 9.500
2.0050E-13 111.4 15.84 9.500
18323.2 0 116.4 17.39 1.489 9.500
6.4508E-15 111.4 15.84 9.500
Fit parameter 5 has pegged
18313.4 0 116.3 17.38 1.493 9.500
0.000 111.4 15.77 9.500
Fit parameter 5 has pegged
18311.7 -1 116.2 17.42 1.498 9.500
0.000 111.4 15.75 9.500
Fit parameter 5 has pegged
18311.4 -2 116.2 17.44 1.500 9.500
0.000 111.3 15.76 9.500
Fit parameter 5 has pegged
18311.3 -3 116.2 17.45 1.500 9.500
0.000 111.3 15.76 9.500
Fit parameter 5 has pegged
18311.3 -3 116.1 17.45 1.500 9.500
0.000 111.3 15.76 9.500
Fit parameter 5 has pegged
18311.3 -4 116.1 17.45 1.500 9.500
0.000 111.3 15.76 9.500
Fit parameter 5 has pegged
18311.3 4 116.1 17.45 1.500 9.500
0.000 111.3 15.76 9.500
18311.2 3 116.1 17.45 1.500 9.500
0.000 111.3 15.76 9.500
Fit parameter 5 has pegged
18311.2 3 116.1 17.45 1.500 9.500
0.000 111.3 15.76 9.500
18311.2 3 116.1 17.45 1.500 9.500
0.000 111.3 15.76 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.40E-05 | -0.01 0.01 -1.00 -0.02 0.04
3.29E-04 | 0.01 -0.01 0.04 0.14 0.99
2.21E-03 | -0.37 -0.93 -0.01 -0.02 0.00
2.86E-02 | 0.75 -0.31 -0.03 0.58 -0.09
1.50E-02 | 0.55 -0.21 0.01 -0.80 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 116.143 +/- 0.144174 1
2 2 1 gaussian Sigma keV 17.4499 +/- 0.728923E-01 1
3 3 1 gaussian norm 1.50049 +/- 0.674034E-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 111.323 +/- 0.138936 2
7 7 3 gaussian Sigma keV 15.7645 +/- 0.265122E-01 2
8 3 3 gaussian norm 1.50049 = 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 = 18311.21 using 198 PHA bins.
Reduced chi-squared = 96.37476 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 ( 92.950) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 92.950) > 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 1.234 photons ( 2.4055E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.146 photons ( 2.1605E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:03 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.849 +/- 7.3516E-03
Net count rate (cts/s) for file 2 3.849 +/- 7.3516E-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 = 278824.0 using 168 PHA bins.
Reduced chi-squared = 1742.650 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 45695.77 using 168 PHA bins.
Reduced chi-squared = 285.5986 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
17553.3 -3 88.26 13.73 0.1166 0.7025
0.4409 87.41 14.03 0.6986
4432.39 -4 65.80 19.26 0.3823 0.8524
0.5784 62.12 19.18 0.8465
4132.18 0 66.20 19.05 0.3803 0.8522
0.5779 63.30 19.32 0.8466
3889.92 0 66.56 18.85 0.3788 0.8520
0.5775 64.37 19.36 0.8467
3504.81 0 68.40 9.496 0.3663 0.8503
0.5750 69.83 19.07 0.8474
3298.70 0 68.26 9.668 0.3614 0.8498
0.5753 70.21 18.78 0.8474
3130.12 0 68.12 9.825 0.3570 0.8494
0.5755 70.55 18.49 0.8473
2785.74 0 67.48 12.52 0.3297 0.8457
0.5783 72.39 9.164 0.8459
1468.80 -1 67.93 9.940 0.2333 0.8314
0.5850 71.64 9.406 0.8301
1004.09 -2 66.64 8.141 0.2008 0.7834
0.4851 71.14 8.553 0.7847
796.052 -2 66.00 7.955 0.2056 0.7486
0.4192 70.72 8.593 0.7497
686.928 -2 65.84 7.926 0.2072 0.7222
0.3753 70.56 8.607 0.7230
624.456 -2 65.71 7.989 0.2098 0.7020
0.3442 70.43 8.679 0.7027
586.951 -2 65.63 8.031 0.2118 0.6864
0.3217 70.33 8.737 0.6868
580.411 -3 65.36 8.266 0.2199 0.6410
0.2597 70.02 8.992 0.6427
524.132 -4 65.28 8.307 0.2230 0.6243
0.2446 69.90 9.076 0.6247
523.860 -5 65.29 8.293 0.2228 0.6250
0.2452 69.90 9.070 0.6248
523.860 -6 65.28 8.295 0.2229 0.6249
0.2451 69.90 9.071 0.6248
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
2.12E-07 | 0.00 0.00 -0.11 0.42 -0.80 0.00 0.00 0.40
6.17E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.37E-06 | 0.00 0.01 -0.99 -0.07 0.06 0.00 0.01 -0.08
1.63E-04 | 0.02 -0.02 0.05 -0.58 -0.59 0.02 -0.01 -0.55
2.11E-02 | -0.17 -0.81 0.00 0.00 0.00 0.02 0.57 0.00
5.55E-02 | 0.30 -0.51 -0.01 0.02 0.02 0.46 -0.66 0.02
2.83E-02 | -0.94 -0.03 0.00 -0.01 -0.01 0.11 -0.33 -0.01
3.32E-02 | 0.03 -0.29 -0.01 0.00 0.00 -0.88 -0.37 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 65.2842 +/- 0.174558 1
2 2 1 gaussian Sigma keV 8.29540 +/- 0.176529 1
3 3 1 gaussian norm 0.222887 +/- 0.440656E-02 1
4 4 2 powerlaw PhoIndex 0.624919 +/- 0.854281E-02 1
5 5 2 powerlaw norm 0.245118 +/- 0.893067E-02 1
6 6 3 gaussian LineE keV 69.9026 +/- 0.194414 2
7 7 3 gaussian Sigma keV 9.07143 +/- 0.196317 2
8 3 3 gaussian norm 0.222887 = par 3 2
9 8 4 powerlaw PhoIndex 0.624816 +/- 0.817185E-02 2
10 5 4 powerlaw norm 0.245118 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 523.8596 using 168 PHA bins.
Reduced chi-squared = 3.274123 for 160 degrees of freedom
Null hypothesis probability = 3.056E-40
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.137) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.137) > 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 1.595 photons ( 1.9250E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.596 photons ( 1.9423E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
171.3536
=====best line=====
65.2855 0.174732
=====best sigma=====
8.29366 0.176723
=====norm=====
0.222858 0.441155E-02
=====phoindx=====
0.624963 0.854765E-02
=====pow_norm=====
0.245160 0.893013E-02
=====best line=====
69.9030 0.194440
=====best sigma=====
9.07059 0.196392
=====norm=====
0.222858 par
=====phoindx=====
0.624851 0.817639E-02
=====pow_norm=====
0.245160 par
=====redu_chi=====
3.274122
=====area_flux=====
1.595
=====area_flux_f=====
1.596
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 7 1 640 2000 1044.568 0 0.222858 0.441155E-02 8.29366 0.176723 0.624963 0.854765E-02 0.245160 0.893013E-02 1.595 640 2000 1118.448 0 0.222858 0.441155E-02 9.07059 0.196392 0.624851 0.817639E-02 0.245160 0.893013E-02 1.596 3.274122 1
=====redu_chi=====
582.6548
=====best line=====
116.143 0.144174
=====best sigma=====
17.4499 0.728923E-01
=====norm=====
1.50049 0.674034E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.323 0.138936
=====best sigma=====
15.7645 0.265122E-01
=====norm=====
1.50049 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
96.37476
=====area_flux=====
1.234
=====area_flux_f=====
1.146
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 7 1 1600 3200 1858.288 0 1.50049 0.674034E-02 279.1984 1.1662768 9.50000 -1.00000 0.00000 -1.00000 1.234 1600 3200 1781.168 0 1.50049 0.674034E-02 252.232 0.4241952 9.50000 -1.00000 0.00000 -1.00000 1.146 96.37476 1
=====redu_chi=====
285.5986
=====best line=====
65.2842 0.174558
=====best sigma=====
8.29540 0.176529
=====norm=====
0.222887 0.440656E-02
=====phoindx=====
0.624919 0.854281E-02
=====pow_norm=====
0.245118 0.893067E-02
=====best line=====
69.9026 0.194414
=====best sigma=====
9.07143 0.196317
=====norm=====
0.222887 par
=====phoindx=====
0.624816 0.817185E-02
=====pow_norm=====
0.245118 par
=====redu_chi=====
3.274123
=====area_flux=====
1.595
=====area_flux_f=====
1.596
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 7 1 640 2000 1044.5472 0 0.222887 0.440656E-02 8.29540 0.176529 0.624919 0.854281E-02 0.245118 0.893067E-02 1.595 640 2000 1118.4416 0 0.222887 0.440656E-02 9.07143 0.196317 0.624816 0.817185E-02 0.245118 0.893067E-02 1.596 3.274123 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:03 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.467 +/- 6.9779E-03
Net count rate (cts/s) for file 2 3.467 +/- 6.9779E-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 = 267311.2 using 168 PHA bins.
Reduced chi-squared = 1670.695 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 20811.79 using 168 PHA bins.
Reduced chi-squared = 130.0737 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5189.31 -3 83.10 17.27 0.3495 0.9966
0.7838 82.83 17.17 0.9903
2093.71 -2 75.37 18.73 0.3839 0.9527
0.7377 75.41 18.44 0.9548
1887.49 0 75.59 15.88 0.3784 0.9527
0.7370 75.72 16.31 0.9542
1273.19 -1 76.03 12.13 0.2877 0.9410
0.7574 76.54 10.80 0.9416
818.931 -2 75.46 9.942 0.2109 0.9031
0.6936 76.16 9.958 0.9046
722.118 -2 74.60 9.512 0.2136 0.8815
0.6300 75.78 9.692 0.8832
682.839 -2 74.45 9.341 0.2119 0.8639
0.5861 75.68 9.556 0.8655
668.814 -3 74.15 9.355 0.2112 0.8176
0.4754 75.39 9.579 0.8204
624.533 -4 74.06 9.287 0.2102 0.8027
0.4524 75.30 9.546 0.8042
624.388 -5 74.04 9.287 0.2103 0.8027
0.4520 75.29 9.551 0.8037
624.387 -6 74.04 9.283 0.2102 0.8027
0.4520 75.29 9.548 0.8037
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.57E-07 | 0.00 0.00 -0.19 0.57 -0.59 0.00 0.00 0.54
7.36E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.77E-06 | 0.00 0.01 -0.98 -0.10 0.12 0.00 0.01 -0.11
3.29E-04 | 0.02 0.00 -0.01 -0.43 -0.80 0.02 0.00 -0.41
2.51E-02 | -0.09 -0.73 0.00 0.00 0.00 0.08 0.67 0.00
5.46E-02 | 0.30 -0.58 -0.01 0.01 0.02 0.38 -0.65 0.01
3.58E-02 | 0.90 0.00 0.00 0.01 0.01 -0.40 0.18 0.01
3.83E-02 | 0.30 0.35 0.01 0.01 0.02 0.83 0.32 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 74.0408 +/- 0.193959 1
2 2 1 gaussian Sigma keV 9.28287 +/- 0.191679 1
3 3 1 gaussian norm 0.210220 +/- 0.387716E-02 1
4 4 2 powerlaw PhoIndex 0.802742 +/- 0.837668E-02 1
5 5 2 powerlaw norm 0.452008 +/- 0.155183E-01 1
6 6 3 gaussian LineE keV 75.2893 +/- 0.200492 2
7 7 3 gaussian Sigma keV 9.54836 +/- 0.197860 2
8 3 3 gaussian norm 0.210220 = par 3 2
9 8 4 powerlaw PhoIndex 0.803721 +/- 0.802936E-02 2
10 5 4 powerlaw norm 0.452008 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 624.3870 using 168 PHA bins.
Reduced chi-squared = 3.902419 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 ( 3.739) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.739) > 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 1.392 photons ( 1.6802E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.387 photons ( 1.6783E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:04 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.197 +/- 1.0729E-02
Net count rate (cts/s) for file 2 8.197 +/- 1.0729E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.730 +/- 1.2799E-02( 57.7% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.730 +/- 1.2799E-02( 57.7% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.1967251E+07 using 198 PHA bins.
Reduced chi-squared = 62985.53 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 99743.55 using 198 PHA bins.
Reduced chi-squared = 524.9661 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
56690.5 -3 113.2 18.43 0.4919 2.810
0.1169 104.8 18.43 2.759
26685.0 -2 100.7 19.24 1.900 6.853
2.8819E-02 104.2 19.15 6.590
24942.9 -1 103.3 19.33 1.888 8.797
1.4401E-02 104.7 19.28 9.211
24147.9 -1 104.9 19.36 1.886 9.253
6.6346E-03 105.0 19.35 9.449
22327.3 0 106.2 19.36 1.795 9.402
2.6277E-03 105.8 19.36 9.485
20895.3 0 107.6 19.36 1.728 9.475
1.1713E-03 106.8 19.36 9.498
19748.6 0 109.0 19.37 1.675 9.489
4.8976E-05 107.7 19.36 9.500
18873.6 0 110.2 19.37 1.631 9.497
6.4232E-06 108.6 19.37 9.500
18238.0 0 111.4 19.37 1.594 9.499
7.3742E-07 109.3 19.37 9.500
17799.2 0 112.4 19.37 1.563 9.499
3.6749E-07 109.9 19.37 9.500
17511.4 0 113.2 19.37 1.537 9.500
1.7607E-07 110.4 19.37 9.500
17333.1 0 113.8 19.37 1.516 9.500
7.8015E-08 110.8 19.37 9.500
17003.6 0 114.8 19.37 1.483 9.500
1.2232E-08 111.2 19.22 9.500
16847.0 0 115.4 19.37 1.458 9.500
2.1312E-09 111.6 19.11 9.500
16801.5 0 115.6 19.37 1.449 9.500
1.0405E-09 111.7 19.05 9.500
16766.7 0 115.7 19.37 1.442 9.500
4.9625E-10 111.9 19.00 9.500
16730.5 0 115.8 19.37 1.436 9.500
2.2544E-10 112.1 18.94 9.500
16708.3 0 115.9 19.37 1.431 9.500
8.9759E-11 112.2 18.90 9.500
16686.1 0 116.0 19.37 1.427 9.500
2.2230E-11 112.3 18.85 9.500
16671.1 0 116.1 19.37 1.423 9.500
5.3441E-12 112.4 18.82 9.500
16657.2 0 116.1 19.37 1.421 9.500
1.1318E-12 112.5 18.78 9.500
16644.0 0 116.2 19.37 1.418 9.500
8.3934E-14 112.6 18.75 9.500
Fit parameter 5 has pegged
16428.9 0 116.1 19.37 1.406 9.500
0.000 112.4 18.25 9.500
Fit parameter 5 has pegged
16419.3 0 116.1 19.37 1.400 9.500
0.000 112.5 18.20 9.500
Fit parameter 5 has pegged
16413.0 0 116.1 19.37 1.396 9.500
0.000 112.6 18.16 9.500
Fit parameter 5 has pegged
16407.0 0 116.1 19.37 1.393 9.500
0.000 112.7 18.13 9.500
Fit parameter 5 has pegged
16403.0 0 116.1 19.37 1.391 9.500
0.000 112.8 18.11 9.500
Fit parameter 5 has pegged
16398.9 0 116.1 19.37 1.389 9.500
0.000 112.8 18.09 9.500
Fit parameter 5 has pegged
16395.7 0 116.2 19.37 1.388 9.500
0.000 112.9 18.07 9.500
Fit parameter 5 has pegged
16393.4 0 116.2 19.37 1.387 9.500
0.000 112.9 18.05 9.500
Fit parameter 5 has pegged
16391.8 0 116.2 19.37 1.386 9.500
0.000 112.9 18.04 9.500
Fit parameter 5 has pegged
16390.2 0 116.2 19.37 1.385 9.500
0.000 113.0 18.03 9.500
Fit parameter 5 has pegged
16388.3 0 116.2 19.37 1.384 9.500
0.000 113.0 18.02 9.500
Fit parameter 5 has pegged
16387.5 0 116.2 19.37 1.383 9.500
0.000 113.0 18.01 9.500
Fit parameter 5 has pegged
16386.1 0 116.2 19.37 1.382 9.500
0.000 113.0 18.00 9.500
Fit parameter 5 has pegged
16385.8 0 116.2 19.37 1.382 9.500
0.000 113.1 18.00 9.500
Fit parameter 5 has pegged
16385.3 0 116.2 19.37 1.382 9.500
0.000 113.1 17.99 9.500
Fit parameter 5 has pegged
16385.3 0 116.2 19.37 1.382 9.500
0.000 113.1 17.99 9.500
16381.5 0 116.3 19.37 1.381 9.500
0.000 113.1 18.00 9.500
Fit parameter 5 has pegged
16380.1 0 116.3 19.37 1.380 9.500
0.000 113.1 18.00 9.500
Fit parameter 5 has pegged
16378.7 0 116.4 19.37 1.380 9.500
0.000 113.1 17.99 9.500
Fit parameter 5 has pegged
16377.6 0 116.4 19.37 1.379 9.500
0.000 113.1 17.99 9.500
Fit parameter 5 has pegged
16376.5 0 116.4 19.37 1.379 9.500
0.000 113.1 17.99 9.500
Fit parameter 5 has pegged
16375.5 0 116.4 19.37 1.378 9.500
0.000 113.1 17.99 9.500
Fit parameter 5 has pegged
16374.8 0 116.4 19.37 1.378 9.500
0.000 113.1 17.99 9.500
Fit parameter 5 has pegged
16373.9 0 116.5 19.37 1.378 9.500
0.000 113.1 17.99 9.500
Fit parameter 5 has pegged
16373.3 0 116.5 19.37 1.377 9.500
0.000 113.1 17.99 9.500
Fit parameter 5 has pegged
16372.6 0 116.5 19.37 1.377 9.500
0.000 113.1 17.99 9.500
Fit parameter 5 has pegged
16372.0 0 116.5 19.37 1.376 9.500
0.000 113.1 17.98 9.500
Fit parameter 5 has pegged
16371.5 0 116.5 19.37 1.376 9.500
0.000 113.1 17.98 9.500
Fit parameter 5 has pegged
16371.0 0 116.5 19.37 1.376 9.500
0.000 113.1 17.98 9.500
Fit parameter 5 has pegged
16370.6 0 116.5 19.37 1.375 9.500
0.000 113.1 17.98 9.500
Fit parameter 5 has pegged
16370.2 0 116.6 19.37 1.375 9.500
0.000 113.1 17.98 9.500
Fit parameter 5 has pegged
16369.7 0 116.6 19.37 1.375 9.500
0.000 113.1 17.98 9.500
Fit parameter 5 has pegged
16369.4 0 116.6 19.37 1.375 9.500
0.000 113.1 17.98 9.500
Fit parameter 5 has pegged
16369.1 0 116.6 19.37 1.374 9.500
0.000 113.1 17.98 9.500
Fit parameter 5 has pegged
16368.8 0 116.6 19.37 1.374 9.500
0.000 113.1 17.97 9.500
Fit parameter 5 has pegged
16368.5 0 116.6 19.37 1.374 9.500
0.000 113.1 17.97 9.500
Fit parameter 5 has pegged
16368.4 0 116.6 19.37 1.374 9.500
0.000 113.1 17.97 9.500
Fit parameter 5 has pegged
16368.1 0 116.6 19.37 1.373 9.500
0.000 113.1 17.97 9.500
Fit parameter 5 has pegged
16367.8 0 116.6 19.37 1.373 9.500
0.000 113.1 17.97 9.500
Fit parameter 5 has pegged
16367.8 0 116.6 19.37 1.373 9.500
0.000 113.1 17.97 9.500
Fit parameter 5 has pegged
16367.4 0 116.6 19.37 1.373 9.500
0.000 113.1 17.97 9.500
Fit parameter 5 has pegged
16367.3 0 116.6 19.37 1.372 9.500
0.000 113.2 17.97 9.500
Fit parameter 5 has pegged
16367.1 0 116.6 19.37 1.372 9.500
0.000 113.2 17.96 9.500
Fit parameter 5 has pegged
16367.0 0 116.6 19.37 1.372 9.500
0.000 113.2 17.96 9.500
Fit parameter 5 has pegged
16366.8 0 116.7 19.37 1.372 9.500
0.000 113.2 17.96 9.500
Fit parameter 5 has pegged
16366.7 0 116.7 19.37 1.372 9.500
0.000 113.2 17.96 9.500
Fit parameter 5 has pegged
16366.6 0 116.7 19.37 1.372 9.500
0.000 113.2 17.96 9.500
Fit parameter 5 has pegged
16366.5 0 116.7 19.37 1.371 9.500
0.000 113.2 17.96 9.500
Fit parameter 5 has pegged
16366.4 0 116.7 19.37 1.371 9.500
0.000 113.2 17.96 9.500
Fit parameter 5 has pegged
16366.2 0 116.7 19.37 1.371 9.500
0.000 113.2 17.96 9.500
Fit parameter 5 has pegged
16366.1 0 116.7 19.37 1.371 9.500
0.000 113.2 17.96 9.500
Fit parameter 5 has pegged
16366.0 0 116.7 19.37 1.371 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.9 0 116.7 19.37 1.371 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.8 0 116.7 19.37 1.371 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.8 0 116.7 19.37 1.370 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.6 0 116.7 19.37 1.370 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.5 0 116.7 19.37 1.370 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.5 3 116.7 19.37 1.370 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.5 5 116.7 19.37 1.370 9.500
0.000 113.2 17.95 9.500
16365.5 0 116.7 19.37 1.370 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.5 4 116.7 19.37 1.370 9.500
0.000 113.2 17.95 9.500
16365.4 0 116.7 19.37 1.370 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.3 0 116.7 19.37 1.370 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.2 0 116.7 19.37 1.370 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.2 0 116.7 19.37 1.370 9.500
0.000 113.2 17.95 9.500
Fit parameter 5 has pegged
16365.1 0 116.7 19.37 1.369 9.500
0.000 113.2 17.94 9.500
Fit parameter 5 has pegged
16365.1 4 116.7 19.37 1.369 9.500
0.000 113.2 17.94 9.500
16365.0 4 116.7 19.37 1.369 9.500
0.000 113.2 17.94 9.500
Fit parameter 5 has pegged
16365.0 4 116.7 19.37 1.369 9.500
0.000 113.2 17.94 9.500
16365.0 5 116.7 19.37 1.369 9.500
0.000 113.2 17.94 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.20E-05 | -0.01 0.00 -1.00 -0.01 0.01
5.40E-03 | 0.00 0.00 0.00 -0.56 -0.83
1.54E-02 | -0.97 -0.07 0.01 0.18 -0.13
3.36E-02 | 0.22 0.06 -0.02 0.81 -0.55
1.97E+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 116.716 +/- 0.171111 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.39773 1
3 3 1 gaussian norm 1.36946 +/- 0.664759E-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 113.225 +/- 0.162075 2
7 7 3 gaussian Sigma keV 17.9449 +/- 0.122408 2
8 3 3 gaussian norm 1.36946 = 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 = 16365.04 using 198 PHA bins.
Reduced chi-squared = 86.13181 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 ( 83.071) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 83.071) > 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 1.104 photons ( 2.1806E-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 ( 2.0311E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:04 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.467 +/- 6.9779E-03
Net count rate (cts/s) for file 2 3.467 +/- 6.9779E-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 = 344228.9 using 168 PHA bins.
Reduced chi-squared = 2151.431 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 35189.04 using 168 PHA bins.
Reduced chi-squared = 219.9315 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4296.52 -3 86.07 14.96 0.2012 0.9069
0.6860 85.69 14.63 0.9007
2836.33 -4 69.83 18.28 0.3173 0.8431
0.4649 70.03 17.80 0.8465
1556.37 0 72.89 12.58 0.3276 0.8400
0.4710 73.09 15.62 0.8420
738.822 -1 74.35 10.63 0.2419 0.8291
0.4915 75.54 9.756 0.8311
650.098 -2 74.45 9.860 0.2072 0.8212
0.4907 75.45 9.464 0.8222
625.597 -3 74.17 9.214 0.2096 0.8080
0.4630 75.33 9.544 0.8096
624.513 -4 74.02 9.328 0.2108 0.8026
0.4518 75.29 9.566 0.8038
624.401 -5 74.05 9.268 0.2100 0.8028
0.4523 75.29 9.540 0.8038
624.390 -6 74.04 9.291 0.2103 0.8027
0.4519 75.29 9.554 0.8037
624.388 -7 74.04 9.281 0.2102 0.8028
0.4520 75.29 9.547 0.8037
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.57E-07 | 0.00 0.00 -0.19 0.57 -0.59 0.00 0.00 0.54
7.36E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.78E-06 | 0.00 0.01 -0.98 -0.10 0.12 0.00 0.01 -0.11
3.29E-04 | 0.02 0.00 -0.01 -0.43 -0.80 0.02 0.00 -0.41
2.51E-02 | -0.09 -0.73 0.00 0.00 0.00 0.08 0.67 0.00
5.46E-02 | 0.30 -0.58 -0.01 0.01 0.02 0.38 -0.65 0.01
3.58E-02 | 0.90 0.00 0.00 0.01 0.01 -0.40 0.18 0.01
3.83E-02 | 0.30 0.35 0.01 0.01 0.02 0.83 0.32 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 74.0418 +/- 0.194025 1
2 2 1 gaussian Sigma keV 9.28102 +/- 0.191758 1
3 3 1 gaussian norm 0.210194 +/- 0.387871E-02 1
4 4 2 powerlaw PhoIndex 0.802755 +/- 0.837769E-02 1
5 5 2 powerlaw norm 0.452040 +/- 0.155178E-01 1
6 6 3 gaussian LineE keV 75.2898 +/- 0.200531 2
7 7 3 gaussian Sigma keV 9.54724 +/- 0.197906 2
8 3 3 gaussian norm 0.210194 = par 3 2
9 8 4 powerlaw PhoIndex 0.803733 +/- 0.803032E-02 2
10 5 4 powerlaw norm 0.452040 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 624.3879 using 168 PHA bins.
Reduced chi-squared = 3.902424 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 ( 3.739) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.739) > 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 1.392 photons ( 1.6802E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.387 photons ( 1.6783E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
130.0737
=====best line=====
74.0408 0.193959
=====best sigma=====
9.28287 0.191679
=====norm=====
0.210220 0.387716E-02
=====phoindx=====
0.802742 0.837668E-02
=====pow_norm=====
0.452008 0.155183E-01
=====best line=====
75.2893 0.200492
=====best sigma=====
9.54836 0.197860
=====norm=====
0.210220 par
=====phoindx=====
0.803721 0.802936E-02
=====pow_norm=====
0.452008 par
=====redu_chi=====
3.902419
=====area_flux=====
1.392
=====area_flux_f=====
1.387
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 8 1 640 2000 1184.6528 0 0.210220 0.387716E-02 9.28287 0.191679 0.802742 0.837668E-02 0.452008 0.155183E-01 1.392 640 2000 1204.6288 0 0.210220 0.387716E-02 9.54836 0.197860 0.803721 0.802936E-02 0.452008 0.155183E-01 1.387 3.902419 1
=====redu_chi=====
524.9661
=====best line=====
116.716 0.171111
=====best sigma=====
19.3655 1.39773
=====norm=====
1.36946 0.664759E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.225 0.162075
=====best sigma=====
17.9449 0.122408
=====norm=====
1.36946 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
86.13181
=====area_flux=====
1.104
=====area_flux_f=====
1.054
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 8 1 1600 3200 1867.456 0 1.36946 0.664759E-02 309.848 22.36368 9.50000 -1.00000 0.00000 -1.00000 1.104 1600 3200 1811.6 0 1.36946 0.664759E-02 287.1184 1.958528 9.50000 -1.00000 0.00000 -1.00000 1.054 86.13181 1
=====redu_chi=====
219.9315
=====best line=====
74.0418 0.194025
=====best sigma=====
9.28102 0.191758
=====norm=====
0.210194 0.387871E-02
=====phoindx=====
0.802755 0.837769E-02
=====pow_norm=====
0.452040 0.155178E-01
=====best line=====
75.2898 0.200531
=====best sigma=====
9.54724 0.197906
=====norm=====
0.210194 par
=====phoindx=====
0.803733 0.803032E-02
=====pow_norm=====
0.452040 par
=====redu_chi=====
3.902424
=====area_flux=====
1.392
=====area_flux_f=====
1.387
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 8 1 640 2000 1184.6688 0 0.210194 0.387871E-02 9.28102 0.191758 0.802755 0.837769E-02 0.452040 0.155178E-01 1.392 640 2000 1204.6368 0 0.210194 0.387871E-02 9.54724 0.197906 0.803733 0.803032E-02 0.452040 0.155178E-01 1.387 3.902424 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:04 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.330 +/- 5.7203E-03
Net count rate (cts/s) for file 2 2.330 +/- 5.7203E-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 = 608448.0 using 168 PHA bins.
Reduced chi-squared = 3802.800 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12960.94 using 168 PHA bins.
Reduced chi-squared = 81.00587 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3242.73 -3 83.27 16.75 0.2118 0.9893
0.5258 83.44 16.59 0.9820
2591.48 -3 76.88 8.946 0.1210 0.8030
0.2707 77.59 8.987 0.8092
1230.91 -4 76.95 9.036 0.1357 0.8839
0.3917 78.06 9.376 0.8783
652.145 -5 76.97 8.985 0.1354 0.8741
0.4116 78.06 9.251 0.8738
652.042 -6 76.97 9.010 0.1357 0.8744
0.4116 78.05 9.282 0.8742
652.041 -7 76.97 9.000 0.1356 0.8743
0.4116 78.05 9.274 0.8742
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.07E-07 | 0.00 0.00 -0.28 0.53 -0.61 0.00 0.00 0.51
1.09E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
4.97E-06 | 0.00 0.01 -0.96 -0.14 0.19 0.00 0.01 -0.15
4.46E-04 | 0.02 0.01 -0.02 -0.46 -0.77 0.02 0.01 -0.44
3.60E-02 | -0.14 -0.74 0.00 0.00 0.00 0.10 0.65 0.00
7.37E-02 | 0.27 -0.60 -0.01 0.00 0.00 0.34 -0.68 0.00
5.13E-02 | 0.92 -0.02 0.00 0.01 0.01 -0.33 0.22 0.01
5.48E-02 | 0.26 0.31 0.00 0.01 0.02 0.88 0.27 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.9691 +/- 0.229798 1
2 2 1 gaussian Sigma keV 9.00005 +/- 0.226557 1
3 3 1 gaussian norm 0.135556 +/- 0.300758E-02 1
4 4 2 powerlaw PhoIndex 0.874349 +/- 0.103027E-01 1
5 5 2 powerlaw norm 0.411632 +/- 0.170913E-01 1
6 6 3 gaussian LineE keV 78.0549 +/- 0.237457 2
7 7 3 gaussian Sigma keV 9.27359 +/- 0.235098 2
8 3 3 gaussian norm 0.135556 = par 3 2
9 8 4 powerlaw PhoIndex 0.874195 +/- 0.988898E-02 2
10 5 4 powerlaw norm 0.411632 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 652.0413 using 168 PHA bins.
Reduced chi-squared = 4.075258 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 ( 3.904) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.904) > 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 0.9281 photons ( 1.1199E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9286 photons ( 1.1229E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:04 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.314 +/- 8.6380E-03
Net count rate (cts/s) for file 2 5.314 +/- 8.6380E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 2.983 +/- 1.0360E-02( 56.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 2.983 +/- 1.0360E-02( 56.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.1686698E+07 using 198 PHA bins.
Reduced chi-squared = 61508.94 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 72681.65 using 198 PHA bins.
Reduced chi-squared = 382.5350 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
39208.2 -3 117.0 19.05 0.3456 2.816
0.1249 109.9 19.09 2.765
14822.5 -2 108.7 19.25 1.163 6.582
2.8306E-02 111.3 19.29 6.413
14188.0 -1 110.6 19.33 1.165 9.326
4.9493E-03 110.8 19.36 8.638
13436.6 0 111.8 19.36 1.126 9.478
2.2555E-03 111.2 19.36 9.454
12965.5 0 112.9 19.37 1.099 9.497
5.3186E-04 111.6 19.36 9.498
12652.1 0 113.9 19.37 1.079 9.499
2.1849E-04 112.1 19.37 9.500
12448.1 0 114.6 19.37 1.064 9.500
5.0941E-05 112.4 19.37 9.500
12317.2 0 115.2 19.37 1.051 9.500
7.5210E-06 112.7 19.37 9.500
12236.1 0 115.7 19.37 1.041 9.500
1.9832E-06 113.0 19.37 9.500
12188.3 0 116.1 19.37 1.033 9.500
5.7821E-07 113.2 19.37 9.500
12163.2 0 116.4 19.37 1.027 9.500
2.2404E-07 113.3 19.37 9.500
12147.9 0 116.7 19.37 1.021 9.500
4.5622E-08 113.5 19.37 9.500
12006.2 0 117.1 19.37 1.008 9.500
1.4754E-11 113.5 19.22 9.500
11995.4 0 117.2 19.37 1.005 9.500
7.1895E-12 113.6 19.20 9.500
11983.7 0 117.2 19.37 1.003 9.500
3.4172E-12 113.6 19.18 9.500
11978.2 0 117.2 19.37 1.001 9.500
1.5311E-12 113.7 19.16 9.500
11971.4 0 117.3 19.37 0.9999 9.500
5.8950E-13 113.7 19.14 9.500
11966.3 0 117.3 19.37 0.9989 9.500
1.1866E-13 113.8 19.13 9.500
Fit parameter 5 has pegged
11816.7 0 117.2 19.37 0.9920 9.500
0.000 113.5 18.54 9.500
Fit parameter 5 has pegged
11808.3 0 117.2 19.37 0.9879 9.500
0.000 113.6 18.56 9.500
Fit parameter 5 has pegged
11804.7 0 117.2 19.37 0.9856 9.500
0.000 113.7 18.54 9.500
Fit parameter 5 has pegged
11801.4 0 117.2 19.37 0.9840 9.500
0.000 113.7 18.52 9.500
Fit parameter 5 has pegged
11799.2 0 117.2 19.37 0.9830 9.500
0.000 113.8 18.51 9.500
Fit parameter 5 has pegged
11798.0 0 117.2 19.37 0.9823 9.500
0.000 113.8 18.50 9.500
Fit parameter 5 has pegged
11796.8 0 117.2 19.37 0.9818 9.500
0.000 113.8 18.48 9.500
Fit parameter 5 has pegged
11795.2 0 117.2 19.37 0.9812 9.500
0.000 113.9 18.48 9.500
Fit parameter 5 has pegged
11793.6 0 117.2 19.37 0.9806 9.500
0.000 113.9 18.47 9.500
Fit parameter 5 has pegged
11792.7 0 117.2 19.37 0.9803 9.500
0.000 113.9 18.46 9.500
Fit parameter 5 has pegged
11791.9 0 117.2 19.37 0.9800 9.500
0.000 113.9 18.46 9.500
Fit parameter 5 has pegged
11790.4 0 117.2 19.37 0.9795 9.500
0.000 113.9 18.45 9.500
Fit parameter 5 has pegged
11789.8 0 117.2 19.37 0.9793 9.500
0.000 113.9 18.45 9.500
Fit parameter 5 has pegged
11788.9 0 117.3 19.37 0.9790 9.500
0.000 113.9 18.45 9.500
Fit parameter 5 has pegged
11788.4 0 117.3 19.37 0.9788 9.500
0.000 114.0 18.44 9.500
Fit parameter 5 has pegged
11788.2 0 117.3 19.37 0.9787 9.500
0.000 114.0 18.44 9.500
Fit parameter 5 has pegged
11787.3 0 117.3 19.37 0.9784 9.500
0.000 114.0 18.44 9.500
Fit parameter 5 has pegged
11786.9 0 117.3 19.37 0.9782 9.500
0.000 114.0 18.43 9.500
Fit parameter 5 has pegged
11783.8 0 117.3 19.37 0.9775 9.500
0.000 114.0 18.43 9.500
Fit parameter 5 has pegged
11781.1 0 117.4 19.37 0.9769 9.500
0.000 114.0 18.43 9.500
Fit parameter 5 has pegged
11778.6 0 117.4 19.37 0.9763 9.500
0.000 114.0 18.43 9.500
Fit parameter 5 has pegged
11776.3 0 117.4 19.37 0.9758 9.500
0.000 114.0 18.43 9.500
Fit parameter 5 has pegged
11774.3 0 117.5 19.37 0.9752 9.500
0.000 114.0 18.43 9.500
Fit parameter 5 has pegged
11772.5 0 117.5 19.37 0.9747 9.500
0.000 114.0 18.43 9.500
Fit parameter 5 has pegged
11770.9 0 117.5 19.37 0.9742 9.500
0.000 114.0 18.43 9.500
Fit parameter 5 has pegged
11769.3 0 117.6 19.37 0.9737 9.500
0.000 114.0 18.43 9.500
Fit parameter 5 has pegged
11767.9 0 117.6 19.37 0.9733 9.500
0.000 114.0 18.43 9.500
Fit parameter 5 has pegged
11766.8 0 117.6 19.37 0.9729 9.500
0.000 114.0 18.42 9.500
Fit parameter 5 has pegged
11765.6 0 117.6 19.37 0.9724 9.500
0.000 114.0 18.42 9.500
Fit parameter 5 has pegged
11764.5 0 117.7 19.37 0.9720 9.500
0.000 114.0 18.42 9.500
Fit parameter 5 has pegged
11763.5 0 117.7 19.37 0.9717 9.500
0.000 114.0 18.42 9.500
Fit parameter 5 has pegged
11762.7 0 117.7 19.37 0.9713 9.500
0.000 114.0 18.42 9.500
Fit parameter 5 has pegged
11761.8 0 117.7 19.37 0.9710 9.500
0.000 114.0 18.42 9.500
Fit parameter 5 has pegged
11761.1 0 117.7 19.37 0.9706 9.500
0.000 114.0 18.41 9.500
Fit parameter 5 has pegged
11760.4 0 117.8 19.37 0.9703 9.500
0.000 114.0 18.41 9.500
Fit parameter 5 has pegged
11759.8 0 117.8 19.37 0.9700 9.500
0.000 114.0 18.41 9.500
Fit parameter 5 has pegged
11759.2 0 117.8 19.37 0.9697 9.500
0.000 114.1 18.41 9.500
Fit parameter 5 has pegged
11758.7 0 117.8 19.37 0.9694 9.500
0.000 114.1 18.41 9.500
Fit parameter 5 has pegged
11758.2 0 117.8 19.37 0.9691 9.500
0.000 114.1 18.41 9.500
Fit parameter 5 has pegged
11757.7 0 117.8 19.37 0.9689 9.500
0.000 114.1 18.40 9.500
Fit parameter 5 has pegged
11757.2 0 117.8 19.37 0.9686 9.500
0.000 114.1 18.40 9.500
Fit parameter 5 has pegged
11756.9 0 117.9 19.37 0.9684 9.500
0.000 114.1 18.40 9.500
Fit parameter 5 has pegged
11756.5 0 117.9 19.37 0.9681 9.500
0.000 114.1 18.40 9.500
Fit parameter 5 has pegged
11756.1 0 117.9 19.37 0.9679 9.500
0.000 114.1 18.40 9.500
Fit parameter 5 has pegged
11755.8 0 117.9 19.37 0.9677 9.500
0.000 114.1 18.39 9.500
Fit parameter 5 has pegged
11755.5 0 117.9 19.37 0.9675 9.500
0.000 114.1 18.39 9.500
Fit parameter 5 has pegged
11755.3 0 117.9 19.37 0.9673 9.500
0.000 114.1 18.39 9.500
Fit parameter 5 has pegged
11754.9 0 117.9 19.37 0.9671 9.500
0.000 114.1 18.39 9.500
Fit parameter 5 has pegged
11754.7 0 117.9 19.37 0.9669 9.500
0.000 114.1 18.39 9.500
Fit parameter 5 has pegged
11754.4 0 117.9 19.37 0.9667 9.500
0.000 114.1 18.38 9.500
Fit parameter 5 has pegged
11754.2 0 117.9 19.37 0.9665 9.500
0.000 114.1 18.38 9.500
Fit parameter 5 has pegged
11754.0 0 117.9 19.37 0.9664 9.500
0.000 114.1 18.38 9.500
Fit parameter 5 has pegged
11753.8 0 117.9 19.37 0.9662 9.500
0.000 114.1 18.38 9.500
Fit parameter 5 has pegged
11753.7 0 117.9 19.37 0.9661 9.500
0.000 114.1 18.38 9.500
Fit parameter 5 has pegged
11753.5 0 118.0 19.37 0.9659 9.500
0.000 114.1 18.38 9.500
Fit parameter 5 has pegged
11753.3 0 118.0 19.37 0.9658 9.500
0.000 114.1 18.37 9.500
Fit parameter 5 has pegged
11753.1 0 118.0 19.37 0.9656 9.500
0.000 114.2 18.37 9.500
Fit parameter 5 has pegged
11753.0 0 118.0 19.37 0.9655 9.500
0.000 114.2 18.37 9.500
Fit parameter 5 has pegged
11752.8 0 118.0 19.37 0.9653 9.500
0.000 114.2 18.37 9.500
Fit parameter 5 has pegged
11752.7 0 118.0 19.37 0.9652 9.500
0.000 114.2 18.37 9.500
Fit parameter 5 has pegged
11752.5 0 118.0 19.37 0.9651 9.500
0.000 114.2 18.37 9.500
Fit parameter 5 has pegged
11752.4 0 118.0 19.37 0.9650 9.500
0.000 114.2 18.36 9.500
Fit parameter 5 has pegged
11752.4 0 118.0 19.37 0.9648 9.500
0.000 114.2 18.36 9.500
Fit parameter 5 has pegged
11752.3 0 118.0 19.37 0.9647 9.500
0.000 114.2 18.36 9.500
Fit parameter 5 has pegged
11752.1 0 118.0 19.37 0.9646 9.500
0.000 114.2 18.36 9.500
Fit parameter 5 has pegged
11752.0 0 118.0 19.37 0.9645 9.500
0.000 114.2 18.36 9.500
Fit parameter 5 has pegged
11751.9 0 118.0 19.37 0.9644 9.500
0.000 114.2 18.36 9.500
Fit parameter 5 has pegged
11751.8 0 118.0 19.37 0.9643 9.500
0.000 114.2 18.35 9.500
Fit parameter 5 has pegged
11751.8 0 118.0 19.37 0.9642 9.500
0.000 114.2 18.35 9.500
Fit parameter 5 has pegged
11751.6 0 118.0 19.37 0.9641 9.500
0.000 114.2 18.35 9.500
Fit parameter 5 has pegged
11751.6 0 118.0 19.37 0.9640 9.500
0.000 114.2 18.35 9.500
Fit parameter 5 has pegged
11751.5 0 118.0 19.37 0.9639 9.500
0.000 114.2 18.35 9.500
Fit parameter 5 has pegged
11751.4 0 118.0 19.37 0.9639 9.500
0.000 114.2 18.35 9.500
Fit parameter 5 has pegged
11751.3 0 118.0 19.37 0.9638 9.500
0.000 114.2 18.35 9.500
Fit parameter 5 has pegged
11751.3 1 118.0 19.37 0.9638 9.500
0.000 114.2 18.35 9.500
Fit parameter 5 has pegged
11751.3 0 118.0 19.37 0.9637 9.500
0.000 114.2 18.34 9.500
Fit parameter 5 has pegged
11751.2 0 118.0 19.37 0.9636 9.500
0.000 114.2 18.34 9.500
Fit parameter 5 has pegged
11751.1 0 118.0 19.37 0.9635 9.500
0.000 114.2 18.34 9.500
Fit parameter 5 has pegged
11751.1 4 118.0 19.37 0.9635 9.500
0.000 114.2 18.34 9.500
11751.1 4 118.0 19.37 0.9635 9.500
0.000 114.2 18.34 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.47E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.25E-02 | 0.07 0.00 0.00 -0.80 -0.60
2.18E-02 | -0.99 -0.06 0.01 0.02 -0.14
6.94E-02 | 0.12 0.05 -0.01 0.60 -0.79
2.95E+00 | -0.07 1.00 0.00 -0.03 0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.032 +/- 0.191839 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.71028 1
3 3 1 gaussian norm 0.963504 +/- 0.535022E-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 114.233 +/- 0.190055 2
7 7 3 gaussian Sigma keV 18.3413 +/- 0.225984 2
8 3 3 gaussian norm 0.963504 = 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 = 11751.07 using 198 PHA bins.
Reduced chi-squared = 61.84772 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 ( 59.650) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 59.650) > 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 0.7939 photons ( 1.5787E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7525 photons ( 1.4609E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:05 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.330 +/- 5.7203E-03
Net count rate (cts/s) for file 2 2.330 +/- 5.7203E-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 = 711662.7 using 168 PHA bins.
Reduced chi-squared = 4447.892 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21698.43 using 168 PHA bins.
Reduced chi-squared = 135.6152 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3066.69 -3 85.71 14.56 0.1430 0.9522
0.5087 85.74 14.10 0.9437
2738.36 -4 73.39 15.60 0.1551 0.8230
0.2868 74.56 14.70 0.8274
1660.47 -2 80.16 6.748 6.4611E-02 0.8304
0.3600 80.20 8.072 0.8248
1177.27 -3 76.46 13.96 0.1281 0.8714
0.4052 76.83 10.64 0.8696
865.928 -4 78.99 8.595 0.1097 0.8860
0.4423 78.87 9.599 0.8847
661.580 -5 76.69 9.448 0.1357 0.8758
0.4144 77.82 9.195 0.8762
652.973 -6 77.04 8.826 0.1344 0.8743
0.4123 78.06 9.237 0.8743
652.138 -7 76.95 9.063 0.1360 0.8746
0.4118 78.05 9.301 0.8744
652.054 -8 76.97 8.981 0.1354 0.8743
0.4116 78.06 9.264 0.8741
652.042 -9 76.97 9.010 0.1356 0.8744
0.4116 78.05 9.280 0.8742
652.041 -10 76.97 9.000 0.1356 0.8743
0.4116 78.05 9.274 0.8742
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.07E-07 | 0.00 0.00 -0.28 0.53 -0.61 0.00 0.00 0.51
1.09E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
4.97E-06 | 0.00 0.01 -0.96 -0.14 0.19 0.00 0.01 -0.15
4.46E-04 | 0.02 0.01 -0.02 -0.46 -0.77 0.02 0.01 -0.44
3.60E-02 | -0.14 -0.74 0.00 0.00 0.00 0.10 0.65 0.00
7.37E-02 | 0.27 -0.60 -0.01 0.00 0.00 0.34 -0.68 0.00
5.13E-02 | 0.92 -0.02 0.00 0.01 0.01 -0.33 0.22 0.01
5.48E-02 | 0.26 0.31 0.00 0.01 0.02 0.87 0.27 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.9690 +/- 0.229847 1
2 2 1 gaussian Sigma keV 9.00008 +/- 0.226577 1
3 3 1 gaussian norm 0.135559 +/- 0.300730E-02 1
4 4 2 powerlaw PhoIndex 0.874348 +/- 0.103025E-01 1
5 5 2 powerlaw norm 0.411631 +/- 0.170905E-01 1
6 6 3 gaussian LineE keV 78.0548 +/- 0.237393 2
7 7 3 gaussian Sigma keV 9.27407 +/- 0.235034 2
8 3 3 gaussian norm 0.135559 = par 3 2
9 8 4 powerlaw PhoIndex 0.874195 +/- 0.988870E-02 2
10 5 4 powerlaw norm 0.411631 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 652.0406 using 168 PHA bins.
Reduced chi-squared = 4.075253 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 ( 3.904) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.904) > 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 0.9281 photons ( 1.1199E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9286 photons ( 1.1229E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
81.00587
=====best line=====
76.9691 0.229798
=====best sigma=====
9.00005 0.226557
=====norm=====
0.135556 0.300758E-02
=====phoindx=====
0.874349 0.103027E-01
=====pow_norm=====
0.411632 0.170913E-01
=====best line=====
78.0549 0.237457
=====best sigma=====
9.27359 0.235098
=====norm=====
0.135556 par
=====phoindx=====
0.874195 0.988898E-02
=====pow_norm=====
0.411632 par
=====redu_chi=====
4.075258
=====area_flux=====
0.9281
=====area_flux_f=====
0.9286
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 9 1 640 2000 1231.5056 0 0.135556 0.300758E-02 9.00005 0.226557 0.874349 0.103027E-01 0.411632 0.170913E-01 0.9281 640 2000 1248.8784 0 0.135556 0.300758E-02 9.27359 0.235098 0.874195 0.988898E-02 0.411632 0.170913E-01 0.9286 4.075258 1
=====redu_chi=====
382.5350
=====best line=====
118.032 0.191839
=====best sigma=====
19.3655 1.71028
=====norm=====
0.963504 0.535022E-02
=====phoindx=====
9.50005 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.233 0.190055
=====best sigma=====
18.3413 0.225984
=====norm=====
0.963504 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
61.84772
=====area_flux=====
0.7939
=====area_flux_f=====
0.7525
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 9 1 1600 3200 1888.512 0 0.963504 0.535022E-02 309.848 27.36448 9.50005 -1.00000 0.00000 -1.00000 0.7939 1600 3200 1827.728 0 0.963504 0.535022E-02 293.4608 3.615744 9.50000 -1.00000 0.00000 -1.00000 0.7525 61.84772 1
=====redu_chi=====
135.6152
=====best line=====
76.9690 0.229847
=====best sigma=====
9.00008 0.226577
=====norm=====
0.135559 0.300730E-02
=====phoindx=====
0.874348 0.103025E-01
=====pow_norm=====
0.411631 0.170905E-01
=====best line=====
78.0548 0.237393
=====best sigma=====
9.27407 0.235034
=====norm=====
0.135559 par
=====phoindx=====
0.874195 0.988870E-02
=====pow_norm=====
0.411631 par
=====redu_chi=====
4.075253
=====area_flux=====
0.9281
=====area_flux_f=====
0.9286
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 9 1 640 2000 1231.504 0 0.135559 0.300730E-02 9.00008 0.226577 0.874348 0.103025E-01 0.411631 0.170905E-01 0.9281 640 2000 1248.8768 0 0.135559 0.300730E-02 9.27407 0.235034 0.874195 0.988870E-02 0.411631 0.170905E-01 0.9286 4.075253 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:05 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.320 +/- 5.7084E-03
Net count rate (cts/s) for file 2 2.320 +/- 5.7084E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 683160.9 using 168 PHA bins.
Reduced chi-squared = 4269.755 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15558.12 using 168 PHA bins.
Reduced chi-squared = 97.23827 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8474.37 -3 82.26 16.34 0.1788 1.081
0.6269 81.86 16.45 1.069
2401.71 -4 74.80 7.537 9.4173E-02 0.8159
0.3020 73.47 7.411 0.8278
1901.46 -2 75.27 14.75 0.1478 0.8677
0.3660 75.37 16.53 0.8663
1665.71 -1 75.54 9.040 0.1384 0.8670
0.3777 73.52 6.579 0.8678
904.813 -2 75.77 9.774 0.1439 0.9049
0.4360 74.61 9.615 0.9035
858.497 0 75.82 9.777 0.1465 0.9039
0.4382 75.17 9.966 0.9037
848.703 -1 75.84 9.930 0.1511 0.9077
0.4453 75.67 10.91 0.9085
771.849 -2 76.05 9.875 0.1506 0.9404
0.5055 75.87 10.04 0.9399
715.306 -2 76.18 9.949 0.1523 0.9651
0.5628 76.07 10.35 0.9649
679.523 -2 76.31 9.924 0.1521 0.9846
0.6137 76.19 10.16 0.9845
657.748 -2 76.39 9.958 0.1527 1.000
0.6568 76.29 10.20 1.000
644.477 -2 76.47 9.959 0.1530 1.013
0.6931 76.37 10.18 1.013
640.302 -3 76.66 9.987 0.1543 1.048
0.7940 76.57 10.23 1.047
623.942 -4 76.73 10.02 0.1551 1.060
0.8456 76.65 10.24 1.060
622.698 -5 76.74 10.05 0.1551 1.060
0.8497 76.65 10.24 1.061
622.697 0 76.75 10.05 0.1551 1.060
0.8497 76.65 10.24 1.061
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.22E-07 | 0.00 0.00 -0.37 0.62 -0.34 0.00 0.00 0.60
1.21E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.88E-06 | 0.00 0.03 -0.93 -0.24 0.15 0.00 0.04 -0.25
1.34E-03 | 0.03 -0.21 0.01 -0.19 -0.66 0.04 0.67 -0.18
1.47E-03 | -0.03 -0.36 0.02 0.19 0.64 -0.02 0.62 0.18
3.77E-03 | 0.03 0.91 0.04 0.04 0.11 0.02 0.40 0.04
6.15E-02 | -0.60 0.03 0.00 -0.01 -0.05 -0.80 0.03 -0.01
5.14E-02 | -0.80 0.01 0.00 0.00 -0.01 0.60 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 76.7455 +/- 0.234267 1
2 2 1 gaussian Sigma keV 10.0491 +/- 0.585739E-01 1
3 3 1 gaussian norm 0.155139 +/- 0.337019E-02 1
4 4 2 powerlaw PhoIndex 1.06020 +/- 0.109854E-01 1
5 5 2 powerlaw norm 0.849694 +/- 0.373313E-01 1
6 6 3 gaussian LineE keV 76.6493 +/- 0.240142 2
7 7 3 gaussian Sigma keV 10.2381 +/- 0.426721E-01 2
8 3 3 gaussian norm 0.155139 = par 3 2
9 8 4 powerlaw PhoIndex 1.06086 +/- 0.105363E-01 2
10 5 4 powerlaw norm 0.849694 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 622.6974 using 168 PHA bins.
Reduced chi-squared = 3.891859 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 ( 3.729) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.729) > 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 0.8969 photons ( 1.0655E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8948 photons ( 1.0627E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:05 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.411 +/- 8.7171E-03
Net count rate (cts/s) for file 2 5.411 +/- 8.7171E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.091 +/- 1.0420E-02( 57.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.091 +/- 1.0420E-02( 57.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.0938097E+07 using 198 PHA bins.
Reduced chi-squared = 57568.93 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 72056.14 using 198 PHA bins.
Reduced chi-squared = 379.2429 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
37778.6 -3 118.4 18.78 0.3221 2.854
0.1423 115.3 18.78 2.801
16238.1 -2 108.8 19.17 1.083 6.620
3.4945E-02 105.9 19.36 8.900
14889.9 0 110.4 19.32 1.080 8.535
1.3951E-02 107.9 19.36 9.323
14046.8 0 111.7 19.36 1.068 9.339
3.8594E-03 109.4 19.36 9.443
13466.4 0 112.8 19.36 1.054 9.434
2.9766E-04 110.5 19.37 9.489
13043.1 0 113.7 19.36 1.038 9.478
5.4701E-05 111.4 19.37 9.496
12744.6 0 114.4 19.37 1.023 9.490
1.7846E-05 112.1 19.37 9.498
12534.2 0 115.0 19.37 1.011 9.495
7.9989E-06 112.6 19.37 9.500
12384.9 0 115.5 19.37 0.9995 9.498
2.8314E-06 113.1 19.37 9.500
12286.3 0 116.0 19.37 0.9906 9.500
1.7641E-07 113.4 19.37 9.500
12219.0 0 116.3 19.37 0.9833 9.500
7.6206E-09 113.7 19.37 9.500
12118.9 0 116.8 19.37 0.9706 9.500
5.4735E-10 113.9 19.37 9.500
12069.7 0 117.1 19.37 0.9629 9.500
4.6330E-11 114.0 19.37 9.500
12056.7 0 117.2 19.37 0.9601 9.500
1.6362E-11 114.1 19.37 9.500
12048.5 0 117.2 19.37 0.9582 9.500
1.3256E-12 114.2 19.37 9.500
12043.1 0 117.3 19.37 0.9567 9.500
3.8810E-13 114.2 19.37 9.500
Fit parameter 5 has pegged
11998.3 0 117.3 19.37 0.9500 9.500
0.000 114.0 19.24 9.500
Fit parameter 5 has pegged
11991.6 0 117.3 19.37 0.9478 9.500
0.000 113.9 19.24 9.500
Fit parameter 5 has pegged
11989.0 0 117.3 19.37 0.9468 9.500
0.000 113.8 19.25 9.500
Fit parameter 5 has pegged
11982.9 0 117.4 19.37 0.9456 9.500
0.000 113.8 19.25 9.500
Fit parameter 5 has pegged
11977.3 0 117.4 19.37 0.9445 9.500
0.000 113.8 19.25 9.500
Fit parameter 5 has pegged
11972.2 0 117.5 19.37 0.9435 9.500
0.000 113.8 19.25 9.500
Fit parameter 5 has pegged
11967.6 0 117.5 19.37 0.9425 9.500
0.000 113.8 19.25 9.500
Fit parameter 5 has pegged
11963.4 0 117.6 19.37 0.9416 9.500
0.000 113.8 19.25 9.500
Fit parameter 5 has pegged
11959.6 0 117.6 19.37 0.9407 9.500
0.000 113.8 19.25 9.500
Fit parameter 5 has pegged
11956.1 0 117.6 19.37 0.9399 9.500
0.000 113.8 19.24 9.500
Fit parameter 5 has pegged
11953.0 0 117.7 19.37 0.9391 9.500
0.000 113.8 19.24 9.500
Fit parameter 5 has pegged
11950.0 0 117.7 19.37 0.9384 9.500
0.000 113.8 19.24 9.500
Fit parameter 5 has pegged
11947.3 0 117.8 19.37 0.9377 9.500
0.000 113.8 19.24 9.500
Fit parameter 5 has pegged
11944.9 0 117.8 19.37 0.9370 9.500
0.000 113.8 19.24 9.500
Fit parameter 5 has pegged
11942.6 0 117.8 19.37 0.9364 9.500
0.000 113.9 19.23 9.500
Fit parameter 5 has pegged
11940.5 0 117.9 19.37 0.9358 9.500
0.000 113.9 19.23 9.500
Fit parameter 5 has pegged
11938.5 0 117.9 19.37 0.9352 9.500
0.000 113.9 19.23 9.500
Fit parameter 5 has pegged
11936.8 0 117.9 19.37 0.9347 9.500
0.000 113.9 19.22 9.500
Fit parameter 5 has pegged
11935.1 0 117.9 19.37 0.9342 9.500
0.000 113.9 19.22 9.500
Fit parameter 5 has pegged
11933.7 0 118.0 19.37 0.9337 9.500
0.000 113.9 19.22 9.500
Fit parameter 5 has pegged
11932.2 0 118.0 19.37 0.9332 9.500
0.000 113.9 19.22 9.500
Fit parameter 5 has pegged
11930.9 0 118.0 19.37 0.9327 9.500
0.000 113.9 19.22 9.500
Fit parameter 5 has pegged
11929.6 0 118.0 19.37 0.9323 9.500
0.000 113.9 19.21 9.500
Fit parameter 5 has pegged
11928.5 0 118.1 19.37 0.9319 9.500
0.000 113.9 19.21 9.500
Fit parameter 5 has pegged
11927.5 0 118.1 19.37 0.9315 9.500
0.000 113.9 19.21 9.500
Fit parameter 5 has pegged
11926.5 0 118.1 19.37 0.9311 9.500
0.000 113.9 19.21 9.500
Fit parameter 5 has pegged
11925.6 0 118.1 19.37 0.9308 9.500
0.000 113.9 19.20 9.500
Fit parameter 5 has pegged
11924.7 0 118.1 19.37 0.9304 9.500
0.000 114.0 19.20 9.500
Fit parameter 5 has pegged
11923.9 0 118.1 19.37 0.9301 9.500
0.000 114.0 19.20 9.500
Fit parameter 5 has pegged
11923.2 0 118.2 19.37 0.9298 9.500
0.000 114.0 19.20 9.500
Fit parameter 5 has pegged
11922.5 0 118.2 19.37 0.9295 9.500
0.000 114.0 19.19 9.500
Fit parameter 5 has pegged
11921.8 0 118.2 19.37 0.9292 9.500
0.000 114.0 19.19 9.500
Fit parameter 5 has pegged
11921.2 0 118.2 19.37 0.9289 9.500
0.000 114.0 19.19 9.500
Fit parameter 5 has pegged
11920.6 0 118.2 19.37 0.9286 9.500
0.000 114.0 19.19 9.500
Fit parameter 5 has pegged
11920.0 0 118.2 19.37 0.9283 9.500
0.000 114.0 19.18 9.500
Fit parameter 5 has pegged
11919.5 0 118.2 19.37 0.9281 9.500
0.000 114.0 19.18 9.500
Fit parameter 5 has pegged
11919.0 0 118.3 19.37 0.9278 9.500
0.000 114.0 19.18 9.500
Fit parameter 5 has pegged
11918.6 0 118.3 19.37 0.9276 9.500
0.000 114.0 19.17 9.500
Fit parameter 5 has pegged
11918.1 0 118.3 19.37 0.9274 9.500
0.000 114.0 19.17 9.500
Fit parameter 5 has pegged
11917.6 0 118.3 19.37 0.9271 9.500
0.000 114.0 19.17 9.500
Fit parameter 5 has pegged
11917.3 0 118.3 19.37 0.9269 9.500
0.000 114.0 19.17 9.500
Fit parameter 5 has pegged
11916.9 0 118.3 19.37 0.9267 9.500
0.000 114.1 19.17 9.500
Fit parameter 5 has pegged
11916.5 0 118.3 19.37 0.9265 9.500
0.000 114.1 19.16 9.500
Fit parameter 5 has pegged
11916.1 0 118.3 19.37 0.9263 9.500
0.000 114.1 19.16 9.500
Fit parameter 5 has pegged
11915.9 0 118.3 19.37 0.9261 9.500
0.000 114.1 19.16 9.500
Fit parameter 5 has pegged
11915.5 0 118.3 19.37 0.9259 9.500
0.000 114.1 19.15 9.500
Fit parameter 5 has pegged
11915.3 0 118.3 19.37 0.9257 9.500
0.000 114.1 19.15 9.500
Fit parameter 5 has pegged
11914.9 0 118.3 19.37 0.9256 9.500
0.000 114.1 19.15 9.500
Fit parameter 5 has pegged
11914.7 0 118.4 19.37 0.9254 9.500
0.000 114.1 19.15 9.500
Fit parameter 5 has pegged
11914.5 0 118.4 19.37 0.9252 9.500
0.000 114.1 19.14 9.500
Fit parameter 5 has pegged
11914.2 0 118.4 19.37 0.9251 9.500
0.000 114.1 19.14 9.500
Fit parameter 5 has pegged
11914.0 0 118.4 19.37 0.9249 9.500
0.000 114.1 19.14 9.500
Fit parameter 5 has pegged
11913.8 0 118.4 19.37 0.9248 9.500
0.000 114.1 19.14 9.500
Fit parameter 5 has pegged
11913.6 0 118.4 19.37 0.9246 9.500
0.000 114.1 19.14 9.500
Fit parameter 5 has pegged
11913.4 0 118.4 19.37 0.9245 9.500
0.000 114.1 19.13 9.500
Fit parameter 5 has pegged
11913.2 0 118.4 19.37 0.9244 9.500
0.000 114.1 19.13 9.500
Fit parameter 5 has pegged
11913.0 0 118.4 19.37 0.9242 9.500
0.000 114.1 19.13 9.500
Fit parameter 5 has pegged
11912.8 0 118.4 19.37 0.9241 9.500
0.000 114.2 19.13 9.500
Fit parameter 5 has pegged
11912.7 0 118.4 19.37 0.9240 9.500
0.000 114.2 19.13 9.500
Fit parameter 5 has pegged
11912.5 0 118.4 19.37 0.9238 9.500
0.000 114.2 19.12 9.500
Fit parameter 5 has pegged
11912.4 0 118.4 19.37 0.9237 9.500
0.000 114.2 19.12 9.500
Fit parameter 5 has pegged
11912.2 0 118.4 19.37 0.9236 9.500
0.000 114.2 19.12 9.500
Fit parameter 5 has pegged
11912.0 0 118.4 19.37 0.9235 9.500
0.000 114.2 19.12 9.500
Fit parameter 5 has pegged
11911.9 0 118.4 19.37 0.9234 9.500
0.000 114.2 19.12 9.500
Fit parameter 5 has pegged
11911.8 0 118.4 19.37 0.9233 9.500
0.000 114.2 19.12 9.500
Fit parameter 5 has pegged
11911.7 0 118.4 19.37 0.9232 9.500
0.000 114.2 19.11 9.500
Fit parameter 5 has pegged
11911.6 0 118.4 19.37 0.9231 9.500
0.000 114.2 19.11 9.500
Fit parameter 5 has pegged
11911.4 0 118.4 19.37 0.9230 9.500
0.000 114.2 19.11 9.500
Fit parameter 5 has pegged
11911.3 0 118.4 19.37 0.9229 9.500
0.000 114.2 19.11 9.500
Fit parameter 5 has pegged
11911.2 0 118.4 19.37 0.9228 9.500
0.000 114.2 19.11 9.500
Fit parameter 5 has pegged
11911.1 0 118.4 19.37 0.9227 9.500
0.000 114.2 19.11 9.500
Fit parameter 5 has pegged
11911.0 0 118.4 19.37 0.9226 9.500
0.000 114.2 19.10 9.500
Fit parameter 5 has pegged
11911.0 0 118.4 19.37 0.9225 9.500
0.000 114.2 19.10 9.500
Fit parameter 5 has pegged
11910.8 0 118.5 19.37 0.9225 9.500
0.000 114.2 19.10 9.500
Fit parameter 5 has pegged
11910.8 0 118.5 19.37 0.9224 9.500
0.000 114.2 19.10 9.500
Fit parameter 5 has pegged
11910.7 0 118.5 19.37 0.9223 9.500
0.000 114.2 19.10 9.500
Fit parameter 5 has pegged
11910.6 0 118.5 19.37 0.9222 9.500
0.000 114.2 19.10 9.500
Fit parameter 5 has pegged
11910.6 0 118.5 19.37 0.9221 9.500
0.000 114.2 19.10 9.500
Fit parameter 5 has pegged
11910.4 0 118.5 19.37 0.9221 9.500
0.000 114.2 19.09 9.500
Fit parameter 5 has pegged
11910.4 0 118.5 19.37 0.9220 9.500
0.000 114.2 19.09 9.500
Fit parameter 5 has pegged
11910.3 0 118.5 19.37 0.9219 9.500
0.000 114.2 19.09 9.500
Fit parameter 5 has pegged
11910.3 0 118.5 19.37 0.9219 9.500
0.000 114.3 19.09 9.500
Fit parameter 5 has pegged
11910.2 0 118.5 19.37 0.9218 9.500
0.000 114.3 19.09 9.500
Fit parameter 5 has pegged
11910.1 0 118.5 19.37 0.9217 9.500
0.000 114.3 19.09 9.500
Fit parameter 5 has pegged
11910.1 0 118.5 19.37 0.9217 9.500
0.000 114.3 19.09 9.500
Fit parameter 5 has pegged
11910.0 0 118.5 19.37 0.9216 9.500
0.000 114.3 19.09 9.500
Fit parameter 5 has pegged
11910.0 0 118.5 19.37 0.9216 9.500
0.000 114.3 19.08 9.500
11909.9 0 118.5 19.37 0.9215 9.500
0.000 114.3 19.09 9.500
Fit parameter 5 has pegged
11909.8 0 118.5 19.37 0.9215 9.500
0.000 114.3 19.09 9.500
Fit parameter 5 has pegged
11909.7 0 118.5 19.37 0.9214 9.500
0.000 114.3 19.09 9.500
Fit parameter 5 has pegged
11909.7 0 118.5 19.37 0.9213 9.500
0.000 114.3 19.08 9.500
11909.6 0 118.5 19.37 0.9212 9.500
0.000 114.3 19.08 9.500
Fit parameter 5 has pegged
11909.6 0 118.5 19.37 0.9212 9.500
0.000 114.3 19.08 9.500
11909.6 3 118.5 19.37 0.9212 9.500
0.000 114.3 19.08 9.500
Fit parameter 5 has pegged
11909.6 3 118.5 19.37 0.9212 9.500
0.000 114.3 19.08 9.500
11909.6 0 118.5 19.37 0.9211 9.500
0.000 114.3 19.08 9.500
Fit parameter 5 has pegged
11909.5 0 118.5 19.37 0.9211 9.500
0.000 114.3 19.08 9.500
Fit parameter 5 has pegged
11909.5 0 118.5 19.37 0.9210 9.500
0.000 114.3 19.08 9.500
Fit parameter 5 has pegged
11909.4 0 118.5 19.37 0.9210 9.500
0.000 114.3 19.08 9.500
Fit parameter 5 has pegged
11909.4 0 118.5 19.37 0.9209 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.4 2 118.5 19.37 0.9209 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.4 4 118.5 19.37 0.9209 9.500
0.000 114.3 19.07 9.500
11909.4 0 118.5 19.37 0.9209 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.3 0 118.5 19.37 0.9208 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.3 0 118.5 19.37 0.9208 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.3 0 118.5 19.37 0.9208 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.3 0 118.5 19.37 0.9207 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.2 0 118.5 19.37 0.9207 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.2 0 118.5 19.37 0.9206 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.2 1 118.5 19.37 0.9206 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.1 0 118.5 19.37 0.9206 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.1 0 118.5 19.37 0.9206 9.500
0.000 114.3 19.07 9.500
11909.1 0 118.5 19.37 0.9205 9.500
0.000 114.3 19.07 9.500
Fit parameter 5 has pegged
11909.1 4 118.5 19.37 0.9205 9.500
0.000 114.3 19.07 9.500
11909.1 5 118.5 19.37 0.9205 9.500
0.000 114.3 19.07 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.35E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.90E-02 | 0.38 0.01 0.00 -0.91 -0.16
2.39E-02 | -0.92 -0.06 0.01 -0.37 -0.10
3.40E+00 | -0.06 0.99 0.00 -0.04 0.13
5.39E-01 | -0.02 -0.13 0.00 -0.18 0.97
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.507 +/- 0.189062 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.82694 1
3 3 1 gaussian norm 0.920515 +/- 0.523836E-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 114.313 +/- 0.201050 2
7 7 3 gaussian Sigma keV 19.0683 +/- 0.753638 2
8 3 3 gaussian norm 0.920515 = 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 = 11909.07 using 198 PHA bins.
Reduced chi-squared = 62.67931 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 ( 60.452) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 60.452) > 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 0.7643 photons ( 1.5233E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7120 photons ( 1.3887E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:06 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.320 +/- 5.7084E-03
Net count rate (cts/s) for file 2 2.320 +/- 5.7084E-03
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 788835.5 using 168 PHA bins.
Reduced chi-squared = 4930.222 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 23466.43 using 168 PHA bins.
Reduced chi-squared = 146.6652 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
17982.5 -3 85.49 14.00 0.1284 1.141
0.7026 85.17 13.93 1.125
3197.08 -4 72.16 16.22 0.1856 1.018
0.7771 71.16 16.06 1.026
1935.86 -2 81.28 6.290 7.3852E-02 1.047
0.8613 80.11 6.977 1.046
1771.30 -3 77.73 16.03 0.1319 1.074
0.9215 77.09 14.61 1.074
1617.89 -2 79.51 5.370 9.8450E-02 1.064
0.9208 78.19 7.952 1.064
746.139 -3 78.20 9.140 0.1317 1.063
0.8893 76.97 10.20 1.065
720.117 -1 76.79 11.81 0.1506 1.066
0.8784 76.73 10.00 1.067
631.279 -2 77.33 9.877 0.1508 1.066
0.8759 76.73 10.12 1.067
626.038 0 77.06 9.950 0.1518 1.066
0.8753 76.73 10.10 1.067
624.432 0 76.93 9.976 0.1526 1.066
0.8748 76.72 10.13 1.067
623.152 -1 76.79 10.08 0.1550 1.066
0.8728 76.69 10.26 1.067
622.943 -2 76.79 10.03 0.1554 1.065
0.8678 76.68 10.24 1.066
622.723 -3 76.75 10.06 0.1553 1.062
0.8548 76.66 10.24 1.062
622.715 0 76.76 10.05 0.1553 1.062
0.8548 76.66 10.24 1.062
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.23E-07 | 0.00 0.00 -0.37 0.62 -0.34 0.00 0.00 0.60
1.21E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.88E-06 | 0.00 0.03 -0.93 -0.24 0.15 0.00 0.04 -0.25
1.33E-03 | 0.02 -0.27 0.01 -0.15 -0.54 0.04 0.77 -0.14
1.46E-03 | -0.04 -0.33 0.02 0.22 0.75 -0.03 0.49 0.21
3.63E-03 | 0.03 0.90 0.04 0.04 0.11 0.02 0.41 0.04
6.15E-02 | -0.60 0.03 0.00 -0.01 -0.05 -0.79 0.03 -0.01
5.14E-02 | -0.80 0.01 0.00 0.00 -0.01 0.61 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 76.7577 +/- 0.234379 1
2 2 1 gaussian Sigma keV 10.0454 +/- 0.573264E-01 1
3 3 1 gaussian norm 0.155280 +/- 0.337228E-02 1
4 4 2 powerlaw PhoIndex 1.06156 +/- 0.109892E-01 1
5 5 2 powerlaw norm 0.854765 +/- 0.375640E-01 1
6 6 3 gaussian LineE keV 76.6567 +/- 0.240078 2
7 7 3 gaussian Sigma keV 10.2438 +/- 0.422759E-01 2
8 3 3 gaussian norm 0.155280 = par 3 2
9 8 4 powerlaw PhoIndex 1.06233 +/- 0.105404E-01 2
10 5 4 powerlaw norm 0.854765 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 622.7148 using 168 PHA bins.
Reduced chi-squared = 3.891968 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 ( 3.729) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.729) > 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 0.8972 photons ( 1.0657E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.8947 photons ( 1.0625E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
97.23827
=====best line=====
76.7455 0.234267
=====best sigma=====
10.0491 0.585739E-01
=====norm=====
0.155139 0.337019E-02
=====phoindx=====
1.06020 0.109854E-01
=====pow_norm=====
0.849694 0.373313E-01
=====best line=====
76.6493 0.240142
=====best sigma=====
10.2381 0.426721E-01
=====norm=====
0.155139 par
=====phoindx=====
1.06086 0.105363E-01
=====pow_norm=====
0.849694 par
=====redu_chi=====
3.891859
=====area_flux=====
0.8969
=====area_flux_f=====
0.8948
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 10 1 640 2000 1227.928 0 0.155139 0.337019E-02 10.0491 0.585739E-01 1.06020 0.109854E-01 0.849694 0.373313E-01 0.8969 640 2000 1226.3888 0 0.155139 0.337019E-02 10.2381 0.426721E-01 1.06086 0.105363E-01 0.849694 0.373313E-01 0.8948 3.891859 1
=====redu_chi=====
379.2429
=====best line=====
118.507 0.189062
=====best sigma=====
19.3655 1.82694
=====norm=====
0.920515 0.523836E-02
=====phoindx=====
9.50005 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.313 0.201050
=====best sigma=====
19.0683 0.753638
=====norm=====
0.920515 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
62.67931
=====area_flux=====
0.7643
=====area_flux_f=====
0.7120
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 10 1 1600 3200 1896.112 0 0.920515 0.523836E-02 309.848 29.23104 9.50005 -1.00000 0.00000 -1.00000 0.7643 1600 3200 1829.008 0 0.920515 0.523836E-02 305.0928 12.058208 9.50000 -1.00000 0.00000 -1.00000 0.7120 62.67931 1
=====redu_chi=====
146.6652
=====best line=====
76.7577 0.234379
=====best sigma=====
10.0454 0.573264E-01
=====norm=====
0.155280 0.337228E-02
=====phoindx=====
1.06156 0.109892E-01
=====pow_norm=====
0.854765 0.375640E-01
=====best line=====
76.6567 0.240078
=====best sigma=====
10.2438 0.422759E-01
=====norm=====
0.155280 par
=====phoindx=====
1.06233 0.105404E-01
=====pow_norm=====
0.854765 par
=====redu_chi=====
3.891968
=====area_flux=====
0.8972
=====area_flux_f=====
0.8947
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 10 1 640 2000 1228.1232 0 0.155280 0.337228E-02 10.0454 0.573264E-01 1.06156 0.109892E-01 0.854765 0.375640E-01 0.8972 640 2000 1226.5072 0 0.155280 0.337228E-02 10.2438 0.422759E-01 1.06233 0.105404E-01 0.854765 0.375640E-01 0.8947 3.891968 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:06 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.634 +/- 6.0819E-03
Net count rate (cts/s) for file 2 2.634 +/- 6.0819E-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 = 572269.1 using 168 PHA bins.
Reduced chi-squared = 3576.682 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16717.36 using 168 PHA bins.
Reduced chi-squared = 104.4835 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4062.18 -3 83.31 17.43 0.2236 0.9826
0.5460 83.39 17.18 0.9723
2777.74 -3 69.17 19.14 0.3252 0.8679
0.2988 71.67 19.26 0.8715
1648.19 -2 72.75 7.769 7.4313E-02 0.8039
0.3570 75.43 6.584 0.7964
1365.32 -3 68.19 14.84 0.1381 0.7964
0.3153 73.77 14.60 0.7952
1185.51 -4 74.36 7.522 9.5025E-02 0.8147
0.3489 75.37 8.200 0.8100
1152.42 -2 69.61 14.84 0.1416 0.8117
0.3353 73.45 12.76 0.8105
730.049 -3 72.18 8.116 0.1188 0.7962
0.3191 74.33 9.480 0.7935
673.272 -4 69.40 11.28 0.1513 0.7745
0.2822 73.19 12.26 0.7743
549.278 -5 70.30 9.716 0.1378 0.7840
0.2975 73.82 9.809 0.7820
526.932 -6 69.47 9.362 0.1510 0.7662
0.2729 73.26 11.17 0.7658
504.347 -7 69.56 9.184 0.1485 0.7689
0.2767 73.39 9.979 0.7675
504.150 -8 69.49 9.295 0.1505 0.7663
0.2733 73.29 10.19 0.7652
503.953 -9 69.52 9.256 0.1500 0.7671
0.2742 73.31 10.05 0.7658
503.928 -10 69.51 9.272 0.1502 0.7668
0.2738 73.30 10.11 0.7655
503.926 -11 69.52 9.265 0.1501 0.7669
0.2740 73.30 10.07 0.7656
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.95E-07 | 0.00 0.00 -0.21 0.44 -0.76 0.00 0.00 0.43
1.03E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.04E-06 | 0.00 0.01 -0.98 -0.09 0.16 0.00 0.03 -0.11
2.76E-04 | 0.02 -0.01 0.01 -0.56 -0.63 0.02 -0.03 -0.54
2.81E-03 | -0.01 0.09 -0.03 0.01 0.02 -0.03 -0.99 0.01
4.74E-02 | 0.71 0.70 0.01 0.01 0.00 0.04 0.05 0.01
7.88E-02 | 0.43 -0.47 -0.01 0.02 0.02 0.77 -0.07 0.01
5.66E-02 | -0.56 0.52 0.00 0.00 0.00 0.64 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 69.5151 +/- 0.236625 1
2 2 1 gaussian Sigma keV 9.26529 +/- 0.237916 1
3 3 1 gaussian norm 0.150099 +/- 0.359686E-02 1
4 4 2 powerlaw PhoIndex 0.766894 +/- 0.103294E-01 1
5 5 2 powerlaw norm 0.273965 +/- 0.118556E-01 1
6 6 3 gaussian LineE keV 73.3048 +/- 0.263747 2
7 7 3 gaussian Sigma keV 10.0716 +/- 0.580165E-01 2
8 3 3 gaussian norm 0.150099 = par 3 2
9 8 4 powerlaw PhoIndex 0.765620 +/- 0.989573E-02 2
10 5 4 powerlaw norm 0.273965 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 503.9258 using 168 PHA bins.
Reduced chi-squared = 3.149536 for 160 degrees of freedom
Null hypothesis probability = 3.091E-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 ( 3.018) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.018) > 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 0.9847 photons ( 1.1817E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9893 photons ( 1.1965E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:06 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 6.334 +/- 9.4314E-03
Net count rate (cts/s) for file 2 6.334 +/- 9.4314E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.700 +/- 1.1222E-02( 58.4% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.700 +/- 1.1222E-02( 58.4% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.7298738E+07 using 198 PHA bins.
Reduced chi-squared = 91045.99 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 67480.95 using 198 PHA bins.
Reduced chi-squared = 355.1629 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
43205.0 -3 86.54 18.41 0.4159 2.602
7.8403E-02 106.5 18.62 2.553
42257.1 1 87.30 18.95 0.4242 1.456
0.1972 106.6 18.59 2.691
34452.4 0 93.74 19.23 0.4965 1.466
0.1876 107.3 18.19 4.529
15144.7 0 114.3 19.35 0.8010 1.530
0.1299 109.7 10.92 8.438
13239.8 0 114.0 18.97 0.8037 1.576
0.1005 109.9 11.28 9.418
10957.0 0 113.4 13.50 0.8562 1.739
1.9978E-02 110.5 13.29 9.478
7172.84 -1 111.1 17.08 1.062 2.142
4.9294E-03 109.8 16.59 9.494
6892.74 -2 110.8 18.36 1.061 6.510
1.0572E-03 110.0 16.61 9.499
6792.52 -3 111.6 18.38 1.020 0.7935
4.6627E-04 110.8 16.20 9.500
6716.93 -2 112.0 17.99 1.012 1.020
1.5702E-04 111.0 16.21 9.500
6640.93 -1 112.0 18.11 1.010 6.304
1.0214E-05 111.0 16.08 9.500
6512.08 0 112.0 18.05 1.007 9.209
5.1024E-07 110.9 15.92 9.500
6505.14 0 112.0 18.07 1.005 9.486
1.5226E-07 110.9 15.89 9.500
6485.65 0 112.0 18.05 1.004 9.497
2.3003E-08 110.9 15.86 9.500
6471.46 0 111.9 18.02 1.004 9.499
6.8948E-09 110.9 15.84 9.500
6452.05 0 111.9 17.99 1.003 9.500
8.3464E-10 110.8 15.80 9.500
6445.49 0 111.9 17.97 1.003 9.500
3.2086E-10 110.8 15.78 9.500
6436.48 0 111.9 17.94 1.002 9.500
1.8031E-12 110.8 15.75 9.500
6433.44 0 111.9 17.93 1.001 9.500
7.9780E-13 110.8 15.74 9.500
6431.13 0 111.9 17.92 1.001 9.500
2.9851E-13 110.8 15.73 9.500
6429.19 0 111.9 17.91 1.001 9.500
5.0273E-14 110.8 15.72 9.500
6427.73 0 111.9 17.90 1.001 9.500
1.9392E-14 110.8 15.71 9.500
Fit parameter 5 has pegged
6418.01 0 111.9 17.82 0.9973 9.500
0.000 110.8 15.63 9.500
Fit parameter 5 has pegged
6405.26 -1 112.2 17.65 0.9852 9.500
0.000 111.1 15.48 9.500
Fit parameter 5 has pegged
6401.31 -2 112.5 17.59 0.9778 9.500
0.000 111.4 15.42 9.500
Fit parameter 5 has pegged
6401.03 -3 112.5 17.58 0.9762 9.500
0.000 111.4 15.40 9.500
Fit parameter 5 has pegged
6400.99 -4 112.5 17.57 0.9757 9.500
0.000 111.5 15.39 9.500
Fit parameter 5 has pegged
6400.99 -5 112.5 17.57 0.9758 9.500
0.000 111.5 15.39 9.500
6400.99 4 112.5 17.57 0.9758 9.500
0.000 111.5 15.39 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.53E-05 | -0.01 0.01 -1.00 -0.01 0.03
3.67E-04 | 0.01 -0.01 0.03 0.12 0.99
4.71E-03 | -0.43 -0.90 0.00 -0.01 0.00
5.24E-02 | 0.79 -0.39 -0.02 0.47 -0.07
2.07E-02 | 0.43 -0.20 0.01 -0.87 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 112.542 +/- 0.193569 1
2 2 1 gaussian Sigma keV 17.5723 +/- 0.111693 1
3 3 1 gaussian norm 0.975750 +/- 0.584373E-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 111.457 +/- 0.165579 2
7 7 3 gaussian Sigma keV 15.3911 +/- 0.285033E-01 2
8 3 3 gaussian norm 0.975750 = 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 = 6400.989 using 198 PHA bins.
Reduced chi-squared = 33.68941 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 ( 32.492) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 32.492) > 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 200. reset by matrix bound to 198.
Model flux 0.7437 photons ( 1.4260E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.7528 photons ( 1.4172E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:06 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.634 +/- 6.0819E-03
Net count rate (cts/s) for file 2 2.634 +/- 6.0819E-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 = 692540.0 using 168 PHA bins.
Reduced chi-squared = 4328.375 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 27593.72 using 168 PHA bins.
Reduced chi-squared = 172.4608 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3933.88 -3 86.88 14.72 0.1110 0.8827
0.4683 86.32 14.36 0.8705
2582.65 -4 64.49 19.10 0.2673 0.9412
0.5044 66.92 18.74 0.9369
1692.98 0 68.96 18.30 0.2591 0.9401
0.5021 71.29 18.89 0.9372
1384.99 0 70.71 15.71 0.2555 0.9391
0.5010 73.38 14.80 0.9371
955.768 -1 72.06 10.53 0.1881 0.9260
0.5122 74.81 12.37 0.9235
678.262 -2 70.80 9.955 0.1485 0.8850
0.4533 74.65 10.07 0.8847
598.910 -2 70.28 9.362 0.1473 0.8590
0.4066 74.03 9.990 0.8587
560.416 -2 70.03 9.178 0.1473 0.8388
0.3737 73.87 9.969 0.8383
538.375 -2 69.89 9.187 0.1477 0.8232
0.3497 73.75 9.959 0.8226
527.826 -3 69.60 9.300 0.1499 0.7806
0.2876 73.42 10.28 0.7811
504.033 -4 69.52 9.273 0.1501 0.7667
0.2740 73.31 10.07 0.7659
503.919 -5 69.51 9.268 0.1501 0.7668
0.2739 73.30 10.10 0.7656
503.918 0 69.51 9.268 0.1502 0.7668
0.2739 73.30 10.09 0.7656
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.95E-07 | 0.00 0.00 -0.21 0.44 -0.76 0.00 0.00 0.43
1.03E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
6.03E-06 | 0.00 0.01 -0.98 -0.09 0.16 0.00 0.03 -0.11
2.76E-04 | 0.02 -0.01 0.01 -0.56 -0.63 0.02 -0.03 -0.54
2.95E-03 | -0.01 0.09 -0.03 0.01 0.02 -0.03 -0.99 0.01
4.74E-02 | 0.71 0.70 0.01 0.01 0.00 0.04 0.05 0.01
7.85E-02 | 0.43 -0.48 -0.01 0.02 0.02 0.76 -0.07 0.01
5.65E-02 | -0.56 0.52 0.00 0.00 0.00 0.64 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 69.5140 +/- 0.236539 1
2 2 1 gaussian Sigma keV 9.26838 +/- 0.237783 1
3 3 1 gaussian norm 0.150154 +/- 0.359380E-02 1
4 4 2 powerlaw PhoIndex 0.766823 +/- 0.103251E-01 1
5 5 2 powerlaw norm 0.273875 +/- 0.118528E-01 1
6 6 3 gaussian LineE keV 73.3028 +/- 0.263220 2
7 7 3 gaussian Sigma keV 10.0893 +/- 0.595153E-01 2
8 3 3 gaussian norm 0.150154 = par 3 2
9 8 4 powerlaw PhoIndex 0.765559 +/- 0.989167E-02 2
10 5 4 powerlaw norm 0.273875 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 503.9182 using 168 PHA bins.
Reduced chi-squared = 3.149489 for 160 degrees of freedom
Null hypothesis probability = 3.099E-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 ( 3.017) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.017) > 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 125. reset by matrix bound to 124.
Model flux 0.9847 photons ( 1.1817E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9893 photons ( 1.1965E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
104.4835
=====best line=====
69.5151 0.236625
=====best sigma=====
9.26529 0.237916
=====norm=====
0.150099 0.359686E-02
=====phoindx=====
0.766894 0.103294E-01
=====pow_norm=====
0.273965 0.118556E-01
=====best line=====
73.3048 0.263747
=====best sigma=====
10.0716 0.580165E-01
=====norm=====
0.150099 par
=====phoindx=====
0.765620 0.989573E-02
=====pow_norm=====
0.273965 par
=====redu_chi=====
3.149536
=====area_flux=====
0.9847
=====area_flux_f=====
0.9893
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 11 1 640 2000 1112.2416 0 0.150099 0.359686E-02 9.26529 0.237916 0.766894 0.103294E-01 0.273965 0.118556E-01 0.9847 640 2000 1172.8768 0 0.150099 0.359686E-02 10.0716 0.580165E-01 0.765620 0.989573E-02 0.273965 0.118556E-01 0.9893 3.149536 1
=====redu_chi=====
355.1629
=====best line=====
112.542 0.193569
=====best sigma=====
17.5723 0.111693
=====norm=====
0.975750 0.584373E-02
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.457 0.165579
=====best sigma=====
15.3911 0.285033E-01
=====norm=====
0.975750 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
33.68941
=====area_flux=====
0.7437
=====area_flux_f=====
0.7528
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 11 1 1600 3200 1800.672 0 0.975750 0.584373E-02 281.1568 1.787088 9.50001 -1.00000 0.00000 -1.00000 0.7437 1600 3200 1783.312 0 0.975750 0.584373E-02 246.2576 0.4560528 9.50000 -1.00000 0.00000 -1.00000 0.7528 33.68941 1
=====redu_chi=====
172.4608
=====best line=====
69.5140 0.236539
=====best sigma=====
9.26838 0.237783
=====norm=====
0.150154 0.359380E-02
=====phoindx=====
0.766823 0.103251E-01
=====pow_norm=====
0.273875 0.118528E-01
=====best line=====
73.3028 0.263220
=====best sigma=====
10.0893 0.595153E-01
=====norm=====
0.150154 par
=====phoindx=====
0.765559 0.989167E-02
=====pow_norm=====
0.273875 par
=====redu_chi=====
3.149489
=====area_flux=====
0.9847
=====area_flux_f=====
0.9893
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 11 1 640 2000 1112.224 0 0.150154 0.359380E-02 9.26838 0.237783 0.766823 0.103251E-01 0.273875 0.118528E-01 0.9847 640 2000 1172.8448 0 0.150154 0.359380E-02 10.0893 0.595153E-01 0.765559 0.989167E-02 0.273875 0.118528E-01 0.9893 3.149489 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:06 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.467 +/- 5.8861E-03
Net count rate (cts/s) for file 2 2.467 +/- 5.8861E-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 = 556014.5 using 168 PHA bins.
Reduced chi-squared = 3475.091 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 10214.40 using 168 PHA bins.
Reduced chi-squared = 63.83998 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1615.96 -3 84.55 15.44 0.1678 0.8831
0.4245 84.85 14.84 0.8805
976.545 -3 78.70 8.922 9.7409E-02 0.8063
0.3214 80.18 9.041 0.8088
950.648 -2 78.95 11.20 0.1361 0.8223
0.3370 81.12 13.80 0.8226
752.276 -3 79.88 9.681 0.1139 0.8534
0.3895 81.55 9.148 0.8524
659.699 -1 79.23 9.690 0.1325 0.8540
0.3888 81.25 10.25 0.8546
651.729 -2 79.26 9.816 0.1374 0.8592
0.3949 81.18 10.01 0.8597
649.544 -3 79.35 9.851 0.1388 0.8727
0.4165 81.26 10.22 0.8729
648.368 -4 79.39 9.867 0.1391 0.8776
0.4262 81.29 10.11 0.8781
648.241 -5 79.39 9.878 0.1393 0.8779
0.4271 81.29 10.16 0.8786
648.240 0 79.39 9.878 0.1394 0.8779
0.4271 81.29 10.15 0.8786
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.14E-07 | 0.00 0.00 -0.28 0.54 -0.60 0.00 0.00 0.52
1.08E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.53E-06 | 0.00 0.01 -0.96 -0.14 0.20 0.00 0.03 -0.15
4.76E-04 | 0.02 0.01 -0.02 -0.45 -0.78 0.02 0.08 -0.43
2.49E-03 | 0.00 -0.08 0.03 0.04 0.05 0.01 0.99 0.04
7.47E-02 | 0.54 -0.55 0.00 0.01 0.01 0.63 -0.05 0.01
6.09E-02 | -0.83 -0.48 0.00 -0.01 -0.01 0.29 -0.04 -0.01
6.60E-02 | 0.15 -0.68 -0.01 -0.01 -0.02 -0.72 -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 79.3918 +/- 0.254949 1
2 2 1 gaussian Sigma keV 9.87778 +/- 0.258960 1
3 3 1 gaussian norm 0.139357 +/- 0.341086E-02 1
4 4 2 powerlaw PhoIndex 0.877876 +/- 0.108020E-01 1
5 5 2 powerlaw norm 0.427089 +/- 0.183271E-01 1
6 6 3 gaussian LineE keV 81.2919 +/- 0.262727 2
7 7 3 gaussian Sigma keV 10.1500 +/- 0.537448E-01 2
8 3 3 gaussian norm 0.139357 = par 3 2
9 8 4 powerlaw PhoIndex 0.878606 +/- 0.103738E-01 2
10 5 4 powerlaw norm 0.427089 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 648.2397 using 168 PHA bins.
Reduced chi-squared = 4.051498 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 ( 3.882) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.882) > 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 0.9494 photons ( 1.1507E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9469 photons ( 1.1518E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:07 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.762 +/- 8.9952E-03
Net count rate (cts/s) for file 2 5.762 +/- 8.9952E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.295 +/- 1.0750E-02( 57.2% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.295 +/- 1.0750E-02( 57.2% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 5764166. using 198 PHA bins.
Reduced chi-squared = 30337.71 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 84618.43 using 198 PHA bins.
Reduced chi-squared = 445.3602 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
44598.2 -3 119.0 19.25 0.4082 2.917
0.2910 115.9 19.19 2.883
28894.1 -2 109.4 19.35 1.439 7.430
9.7711E-03 110.4 19.35 8.236
28804.6 -1 109.8 19.36 1.444 9.408
3.9326E-03 110.6 19.36 9.078
28633.8 -1 110.1 19.36 1.443 9.468
9.2832E-04 110.8 19.36 9.401
28539.4 -1 110.3 19.36 1.443 9.496
2.8446E-04 110.9 19.36 9.469
24782.7 0 111.5 19.36 1.344 9.499
8.9087E-05 112.1 19.37 9.488
22211.9 0 112.9 19.37 1.280 9.500
2.8857E-05 113.6 19.37 9.498
20345.4 0 114.3 19.37 1.238 9.500
1.0748E-05 115.0 19.37 9.500
18978.6 0 115.6 19.37 1.208 9.500
1.9944E-07 116.3 19.37 9.500
17988.1 0 116.7 19.37 1.187 9.500
1.0179E-08 117.4 19.37 9.500
17280.5 0 117.7 19.37 1.170 9.500
3.7229E-09 118.3 19.37 9.500
16144.4 0 119.7 19.37 1.137 9.500
5.1105E-12 119.9 19.37 9.500
15948.5 0 120.1 19.37 1.130 9.500
2.2633E-12 120.2 19.37 9.500
15811.1 0 120.4 19.37 1.124 9.500
7.9851E-13 120.5 19.37 9.500
15712.0 0 120.7 19.37 1.120 9.500
5.4002E-14 120.6 19.37 9.500
Fit parameter 5 has pegged
15556.8 0 121.1 19.37 1.110 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
15498.8 0 121.3 19.37 1.106 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
15461.1 0 121.4 19.37 1.103 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
15436.1 0 121.5 19.37 1.102 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
15420.1 0 121.6 19.37 1.101 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
15406.9 0 121.6 19.37 1.100 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
15397.3 0 121.7 19.37 1.100 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
15391.8 0 121.7 19.37 1.100 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
15384.1 0 121.7 19.37 1.099 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
15379.6 0 121.8 19.37 1.099 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
15375.5 0 121.8 19.37 1.099 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
15329.5 0 121.9 19.37 1.094 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
15288.3 0 121.9 19.37 1.090 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
15251.1 0 122.0 19.37 1.086 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
15218.1 0 122.1 19.37 1.083 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
15188.0 0 122.1 19.37 1.080 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
15160.9 0 122.2 19.37 1.077 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
15136.5 0 122.3 19.37 1.074 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
15114.4 0 122.3 19.37 1.071 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
15094.2 0 122.4 19.37 1.069 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
15075.9 0 122.5 19.37 1.067 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
15059.2 0 122.5 19.37 1.065 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
15043.9 0 122.6 19.37 1.063 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
15029.9 0 122.7 19.37 1.061 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
15017.2 0 122.7 19.37 1.059 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
15005.5 0 122.8 19.37 1.058 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
14994.8 0 122.8 19.37 1.056 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
14984.8 0 122.9 19.37 1.055 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
14975.8 0 122.9 19.37 1.053 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
14967.5 0 123.0 19.37 1.052 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
14959.8 0 123.0 19.37 1.051 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
14952.8 0 123.1 19.37 1.050 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
14946.1 0 123.1 19.37 1.049 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
14940.1 0 123.1 19.37 1.048 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
14934.5 0 123.2 19.37 1.047 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
14929.3 0 123.2 19.37 1.046 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
14924.5 0 123.3 19.37 1.046 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
14920.1 0 123.3 19.37 1.045 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
14916.0 0 123.3 19.37 1.044 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
14912.2 0 123.4 19.37 1.043 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
14908.6 0 123.4 19.37 1.043 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
14905.4 0 123.4 19.37 1.042 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
14902.3 0 123.5 19.37 1.042 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
14899.5 0 123.5 19.37 1.041 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
14896.8 0 123.5 19.37 1.041 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
14894.4 0 123.6 19.37 1.040 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
14892.2 0 123.6 19.37 1.040 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
14890.0 0 123.6 19.37 1.039 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
14888.0 0 123.6 19.37 1.039 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
14886.1 0 123.7 19.37 1.038 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
14884.4 0 123.7 19.37 1.038 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
14882.8 0 123.7 19.37 1.038 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14881.3 0 123.7 19.37 1.037 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14879.9 0 123.7 19.37 1.037 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14878.6 0 123.8 19.37 1.037 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14877.3 0 123.8 19.37 1.036 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14876.2 0 123.8 19.37 1.036 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14875.1 0 123.8 19.37 1.036 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14874.0 0 123.8 19.37 1.036 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14873.1 0 123.8 19.37 1.035 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14872.2 0 123.9 19.37 1.035 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14871.4 0 123.9 19.37 1.035 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14870.6 0 123.9 19.37 1.035 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14869.8 0 123.9 19.37 1.035 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14869.1 0 123.9 19.37 1.034 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
14868.4 0 123.9 19.37 1.034 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14867.8 0 123.9 19.37 1.034 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14867.3 0 123.9 19.37 1.034 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14866.8 0 124.0 19.37 1.034 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14866.2 0 124.0 19.37 1.034 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14865.7 0 124.0 19.37 1.033 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14865.2 0 124.0 19.37 1.033 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14864.8 0 124.0 19.37 1.033 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14864.4 0 124.0 19.37 1.033 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14864.0 0 124.0 19.37 1.033 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14863.6 0 124.0 19.37 1.033 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14863.3 0 124.0 19.37 1.033 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14862.9 0 124.0 19.37 1.033 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14862.6 0 124.0 19.37 1.033 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14862.3 0 124.0 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14862.1 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14861.8 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14861.6 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14861.3 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14861.1 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14860.9 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14860.7 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14860.5 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14860.3 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14860.1 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14860.0 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14859.8 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14859.7 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14859.5 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14859.4 0 124.1 19.37 1.032 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14859.3 0 124.1 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14859.1 0 124.1 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14859.0 0 124.1 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.9 0 124.1 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.8 0 124.1 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.7 0 124.1 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.6 0 124.1 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.5 0 124.1 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.4 0 124.1 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.3 0 124.1 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.3 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.2 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.1 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.0 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14858.0 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.9 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.8 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.8 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.7 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.7 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.6 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.6 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.6 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
14857.4 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.4 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.3 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.3 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.2 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.2 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.2 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
14857.1 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.1 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
14857.1 0 124.2 19.37 1.031 9.500
0.000 122.2 19.37 9.500
14857.0 0 124.2 19.37 1.031 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14857.0 0 124.2 19.37 1.031 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14856.9 0 124.2 19.37 1.031 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14856.8 1 124.2 19.37 1.031 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14856.7 1 124.2 19.37 1.031 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14856.7 0 124.2 19.37 1.031 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14856.6 1 124.2 19.37 1.031 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14856.6 0 124.2 19.37 1.031 9.500
0.000 122.3 19.37 9.500
14856.5 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14856.4 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14856.4 0 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
14856.2 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14856.1 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14856.1 0 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
14855.9 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14855.8 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14855.7 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14855.6 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14855.5 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14855.4 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14855.3 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14855.3 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
14855.1 1 124.2 19.37 1.030 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14855.0 1 124.2 19.37 1.029 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14855.0 1 124.2 19.37 1.029 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14854.8 1 124.2 19.37 1.029 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14854.8 1 124.2 19.37 1.029 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14854.7 1 124.2 19.37 1.029 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14854.6 1 124.2 19.37 1.029 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14854.5 1 124.2 19.37 1.029 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14854.5 1 124.2 19.37 1.029 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14854.4 1 124.2 19.37 1.029 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
14854.3 1 124.2 19.37 1.029 9.500
0.000 122.3 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.41E-05 | 0.00 0.00 -1.00 -0.01 0.00
2.09E-02 | -0.98 -0.03 0.01 -0.21 -0.02
1.76E-02 | -0.21 0.00 0.00 0.98 0.05
4.39E+00 | -0.03 0.94 0.00 -0.02 0.34
2.24E+00 | 0.00 -0.34 0.00 -0.05 0.94
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 124.232 +/- 0.155813 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.03626 1
3 3 1 gaussian norm 1.02895 +/- 0.484934E-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 122.275 +/- 0.161069 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.57287 2
8 3 3 gaussian norm 1.02895 = 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 = 14854.32 using 198 PHA bins.
Reduced chi-squared = 78.18065 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 ( 75.403) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 75.403) > 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 0.9204 photons ( 1.8901E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9002 photons ( 1.8293E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:07 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.467 +/- 5.8861E-03
Net count rate (cts/s) for file 2 2.467 +/- 5.8861E-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 = 634865.8 using 168 PHA bins.
Reduced chi-squared = 3967.911 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17544.46 using 168 PHA bins.
Reduced chi-squared = 109.6529 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1730.08 -3 86.48 13.17 0.1368 0.9029
0.4668 86.74 12.11 0.8979
943.294 -4 77.65 13.17 0.1407 0.8526
0.3771 79.79 11.60 0.8546
822.875 -5 81.51 9.389 0.1164 0.8921
0.4543 82.05 9.750 0.8907
754.131 -1 79.46 11.86 0.1365 0.8912
0.4531 81.39 10.78 0.8916
661.082 -2 80.05 9.807 0.1332 0.8876
0.4489 81.45 9.949 0.8886
654.253 0 79.76 9.789 0.1350 0.8879
0.4484 81.42 9.965 0.8887
652.289 -1 79.46 9.933 0.1394 0.8883
0.4467 81.36 10.49 0.8891
649.047 -2 79.46 9.884 0.1396 0.8862
0.4425 81.35 10.10 0.8870
648.346 -3 79.41 9.899 0.1397 0.8803
0.4316 81.31 10.19 0.8812
648.276 -4 79.40 9.869 0.1392 0.8778
0.4272 81.29 10.12 0.8786
648.239 -5 79.39 9.880 0.1393 0.8779
0.4271 81.29 10.16 0.8786
648.239 0 79.39 9.879 0.1394 0.8779
0.4271 81.29 10.16 0.8786
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.14E-07 | 0.00 0.00 -0.28 0.54 -0.60 0.00 0.00 0.52
1.08E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.53E-06 | 0.00 0.01 -0.96 -0.14 0.20 0.00 0.03 -0.15
4.76E-04 | 0.02 0.01 -0.02 -0.45 -0.78 0.02 0.08 -0.43
2.54E-03 | 0.00 -0.08 0.03 0.04 0.05 0.01 0.99 0.04
7.47E-02 | 0.54 -0.55 0.00 0.01 0.01 0.63 -0.05 0.01
6.09E-02 | -0.83 -0.48 0.00 -0.01 -0.01 0.29 -0.04 -0.01
6.59E-02 | 0.14 -0.68 -0.01 -0.01 -0.02 -0.72 -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 79.3913 +/- 0.255018 1
2 2 1 gaussian Sigma keV 9.87937 +/- 0.258989 1
3 3 1 gaussian norm 0.139351 +/- 0.341051E-02 1
4 4 2 powerlaw PhoIndex 0.877864 +/- 0.108009E-01 1
5 5 2 powerlaw norm 0.427089 +/- 0.183255E-01 1
6 6 3 gaussian LineE keV 81.2921 +/- 0.262515 2
7 7 3 gaussian Sigma keV 10.1556 +/- 0.542075E-01 2
8 3 3 gaussian norm 0.139351 = par 3 2
9 8 4 powerlaw PhoIndex 0.878606 +/- 0.103728E-01 2
10 5 4 powerlaw norm 0.427089 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 648.2388 using 168 PHA bins.
Reduced chi-squared = 4.051493 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 ( 3.882) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.882) > 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 0.9494 photons ( 1.1507E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9468 photons ( 1.1518E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
63.83998
=====best line=====
79.3918 0.254949
=====best sigma=====
9.87778 0.258960
=====norm=====
0.139357 0.341086E-02
=====phoindx=====
0.877876 0.108020E-01
=====pow_norm=====
0.427089 0.183271E-01
=====best line=====
81.2919 0.262727
=====best sigma=====
10.1500 0.537448E-01
=====norm=====
0.139357 par
=====phoindx=====
0.878606 0.103738E-01
=====pow_norm=====
0.427089 par
=====redu_chi=====
4.051498
=====area_flux=====
0.9494
=====area_flux_f=====
0.9469
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 12 1 640 2000 1270.2688 0 0.139357 0.341086E-02 9.87778 0.258960 0.877876 0.108020E-01 0.427089 0.183271E-01 0.9494 640 2000 1300.6704 0 0.139357 0.341086E-02 10.1500 0.537448E-01 0.878606 0.103738E-01 0.427089 0.183271E-01 0.9469 4.051498 1
=====redu_chi=====
445.3602
=====best line=====
124.232 0.155813
=====best sigma=====
19.3655 2.03626
=====norm=====
1.02895 0.484934E-02
=====phoindx=====
9.50003 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
122.275 0.161069
=====best sigma=====
19.3655 1.57287
=====norm=====
1.02895 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
78.18065
=====area_flux=====
0.9204
=====area_flux_f=====
0.9002
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 12 1 1600 3200 1987.712 0 1.02895 0.484934E-02 309.848 32.58016 9.50003 -1.00000 0.00000 -1.00000 0.9204 1600 3200 1956.4 0 1.02895 0.484934E-02 309.848 25.16592 9.50001 -1.00000 0.00000 -1.00000 0.9002 78.18065 1
=====redu_chi=====
109.6529
=====best line=====
79.3913 0.255018
=====best sigma=====
9.87937 0.258989
=====norm=====
0.139351 0.341051E-02
=====phoindx=====
0.877864 0.108009E-01
=====pow_norm=====
0.427089 0.183255E-01
=====best line=====
81.2921 0.262515
=====best sigma=====
10.1556 0.542075E-01
=====norm=====
0.139351 par
=====phoindx=====
0.878606 0.103728E-01
=====pow_norm=====
0.427089 par
=====redu_chi=====
4.051493
=====area_flux=====
0.9494
=====area_flux_f=====
0.9468
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 12 1 640 2000 1270.2608 0 0.139351 0.341051E-02 9.87937 0.258989 0.877864 0.108009E-01 0.427089 0.183255E-01 0.9494 640 2000 1300.6736 0 0.139351 0.341051E-02 10.1556 0.542075E-01 0.878606 0.103728E-01 0.427089 0.183255E-01 0.9468 4.051493 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:07 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.399 +/- 6.9083E-03
Net count rate (cts/s) for file 2 3.399 +/- 6.9083E-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 = 240375.7 using 168 PHA bins.
Reduced chi-squared = 1502.348 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 8763.655 using 168 PHA bins.
Reduced chi-squared = 54.77285 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1811.16 -3 86.70 12.94 0.1853 0.7609
0.3859 87.72 12.23 0.7617
964.413 -4 82.58 9.478 0.1438 0.7325
0.3352 85.28 9.615 0.7337
903.516 -3 83.81 9.618 0.1831 0.7796
0.3911 86.11 12.24 0.7781
754.956 -4 83.67 9.348 0.1766 0.7897
0.4162 85.99 9.808 0.7888
750.924 0 83.65 9.415 0.1786 0.7894
0.4164 86.03 9.891 0.7889
749.532 0 83.64 9.458 0.1799 0.7893
0.4163 86.04 9.945 0.7891
748.805 0 83.64 9.490 0.1809 0.7893
0.4162 86.05 9.984 0.7893
747.762 -1 83.62 9.593 0.1835 0.7898
0.4161 86.03 10.13 0.7898
747.272 -2 83.63 9.609 0.1845 0.7917
0.4190 86.03 10.10 0.7917
746.616 -3 83.66 9.649 0.1858 0.7978
0.4291 86.06 10.18 0.7976
746.407 -4 83.67 9.652 0.1861 0.8002
0.4338 86.07 10.16 0.8001
746.378 -5 83.67 9.655 0.1862 0.8003
0.4342 86.07 10.17 0.8003
746.378 1 83.67 9.655 0.1862 0.8003
0.4342 86.07 10.17 0.8003
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.52E-07 | 0.00 0.00 -0.20 0.56 -0.60 0.00 0.00 0.54
7.54E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.04E-06 | 0.00 0.01 -0.98 -0.08 0.16 0.00 0.04 -0.09
3.69E-04 | 0.02 0.02 -0.05 -0.44 -0.78 0.02 0.13 -0.43
1.92E-03 | -0.01 -0.09 0.04 0.06 0.09 0.01 0.99 0.06
4.46E-02 | 0.91 0.26 0.00 0.01 0.02 -0.31 0.03 0.01
5.28E-02 | -0.35 0.09 0.00 -0.01 -0.02 -0.93 0.01 -0.01
5.11E-02 | -0.21 0.96 0.01 0.01 0.02 0.17 0.08 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 83.6749 +/- 0.214114 1
2 2 1 gaussian Sigma keV 9.65503 +/- 0.224294 1
3 3 1 gaussian norm 0.186179 +/- 0.419788E-02 1
4 4 2 powerlaw PhoIndex 0.800291 +/- 0.992955E-02 1
5 5 2 powerlaw norm 0.434206 +/- 0.169086E-01 1
6 6 3 gaussian LineE keV 86.0701 +/- 0.227894 2
7 7 3 gaussian Sigma keV 10.1689 +/- 0.474285E-01 2
8 3 3 gaussian norm 0.186179 = par 3 2
9 8 4 powerlaw PhoIndex 0.800312 +/- 0.954017E-02 2
10 5 4 powerlaw norm 0.434206 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 746.3784 using 168 PHA bins.
Reduced chi-squared = 4.664865 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 ( 4.469) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.469) > 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 1.333 photons ( 1.6389E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.333 photons ( 1.6459E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:08 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.712 +/- 1.0406E-02
Net count rate (cts/s) for file 2 7.712 +/- 1.0406E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.313 +/- 1.2491E-02( 55.9% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.313 +/- 1.2491E-02( 55.9% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 3694817. using 198 PHA bins.
Reduced chi-squared = 19446.40 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 107338.9 using 198 PHA bins.
Reduced chi-squared = 564.9415 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
57543.6 -3 115.1 19.09 0.5688 2.863
0.4310 116.8 18.89 2.852
38026.6 -4 111.9 19.27 1.859 7.535
5361. 114.0 19.20 7.775
35939.9 0 112.2 19.35 1.823 9.373
411.5 114.3 19.35 8.981
31002.8 0 113.8 19.36 1.708 9.495
58.86 115.7 19.36 9.358
27671.8 0 115.5 19.36 1.635 9.498
9.908 117.2 19.37 9.494
26992.1 0 115.9 19.37 1.618 9.499
4.104 117.5 19.37 9.498
26367.9 0 116.2 19.37 1.601 9.500
0.9840 117.8 19.37 9.499
24469.8 0 117.7 19.37 1.567 9.500
2.9189E-02 119.2 19.37 9.500
23190.2 0 118.9 19.37 1.543 9.500
1.2260E-02 120.2 19.37 9.500
22309.1 0 119.9 19.37 1.525 9.500
2.7155E-03 121.1 19.37 9.500
21708.9 0 120.6 19.37 1.512 9.500
6.2815E-04 121.8 19.37 9.500
21295.7 0 121.3 19.37 1.502 9.500
3.0323E-04 122.3 19.37 9.500
21005.3 0 121.7 19.37 1.493 9.500
1.2196E-04 122.8 19.37 9.500
20793.3 0 122.1 19.37 1.486 9.500
2.5828E-05 123.1 19.37 9.500
20644.7 0 122.4 19.37 1.481 9.500
1.0494E-06 123.3 19.37 9.500
20381.9 0 123.0 19.37 1.469 9.500
7.6390E-09 123.7 19.37 9.500
20332.7 0 123.1 19.37 1.466 9.500
3.0297E-09 123.8 19.37 9.500
20303.3 0 123.2 19.37 1.465 9.500
7.2643E-10 123.8 19.37 9.500
20276.2 0 123.3 19.37 1.464 9.500
1.4746E-10 123.8 19.37 9.500
20255.3 0 123.3 19.37 1.462 9.500
1.9443E-12 123.8 19.37 9.500
20241.5 0 123.4 19.37 1.462 9.500
7.9901E-13 123.9 19.37 9.500
Fit parameter 5 has pegged
20189.5 0 123.5 19.37 1.456 9.500
0.000 123.8 19.37 9.500
Fit parameter 5 has pegged
20174.5 0 123.5 19.37 1.454 9.500
0.000 123.7 19.37 9.500
Fit parameter 5 has pegged
20165.5 0 123.5 19.37 1.452 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
20159.9 0 123.5 19.37 1.452 9.500
0.000 123.6 19.37 9.500
Fit parameter 5 has pegged
20092.0 0 123.6 19.37 1.445 9.500
0.000 123.7 19.37 9.500
Fit parameter 5 has pegged
20031.9 0 123.7 19.37 1.439 9.500
0.000 123.7 19.37 9.500
Fit parameter 5 has pegged
19978.9 0 123.7 19.37 1.434 9.500
0.000 123.8 19.37 9.500
Fit parameter 5 has pegged
19931.6 0 123.8 19.37 1.429 9.500
0.000 123.8 19.37 9.500
Fit parameter 5 has pegged
19889.6 0 123.8 19.37 1.424 9.500
0.000 123.9 19.37 9.500
Fit parameter 5 has pegged
19851.9 0 123.9 19.37 1.420 9.500
0.000 123.9 19.37 9.500
Fit parameter 5 has pegged
19818.2 0 124.0 19.37 1.416 9.500
0.000 124.0 19.37 9.500
Fit parameter 5 has pegged
19788.0 0 124.0 19.37 1.412 9.500
0.000 124.0 19.37 9.500
Fit parameter 5 has pegged
19760.9 0 124.1 19.37 1.409 9.500
0.000 124.1 19.37 9.500
Fit parameter 5 has pegged
19736.5 0 124.2 19.37 1.406 9.500
0.000 124.1 19.37 9.500
Fit parameter 5 has pegged
19714.3 0 124.2 19.37 1.403 9.500
0.000 124.2 19.37 9.500
Fit parameter 5 has pegged
19694.3 0 124.3 19.37 1.400 9.500
0.000 124.2 19.37 9.500
Fit parameter 5 has pegged
19676.2 0 124.3 19.37 1.398 9.500
0.000 124.3 19.37 9.500
Fit parameter 5 has pegged
19659.6 0 124.4 19.37 1.396 9.500
0.000 124.3 19.37 9.500
Fit parameter 5 has pegged
19644.6 0 124.4 19.37 1.393 9.500
0.000 124.3 19.37 9.500
Fit parameter 5 has pegged
19631.0 0 124.5 19.37 1.391 9.500
0.000 124.4 19.37 9.500
Fit parameter 5 has pegged
19618.4 0 124.5 19.37 1.390 9.500
0.000 124.4 19.37 9.500
Fit parameter 5 has pegged
19607.0 0 124.6 19.37 1.388 9.500
0.000 124.4 19.37 9.500
Fit parameter 5 has pegged
19596.7 0 124.6 19.37 1.386 9.500
0.000 124.5 19.37 9.500
Fit parameter 5 has pegged
19587.1 0 124.6 19.37 1.385 9.500
0.000 124.5 19.37 9.500
Fit parameter 5 has pegged
19578.4 0 124.7 19.37 1.383 9.500
0.000 124.5 19.37 9.500
Fit parameter 5 has pegged
19570.4 0 124.7 19.37 1.382 9.500
0.000 124.6 19.37 9.500
Fit parameter 5 has pegged
19563.0 0 124.8 19.37 1.381 9.500
0.000 124.6 19.37 9.500
Fit parameter 5 has pegged
19556.2 0 124.8 19.37 1.380 9.500
0.000 124.6 19.37 9.500
Fit parameter 5 has pegged
19549.9 0 124.8 19.37 1.379 9.500
0.000 124.6 19.37 9.500
Fit parameter 5 has pegged
19544.2 0 124.9 19.37 1.377 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
19538.9 0 124.9 19.37 1.377 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
19534.1 0 124.9 19.37 1.376 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
19529.6 0 125.0 19.37 1.375 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
19525.4 0 125.0 19.37 1.374 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
19521.5 0 125.0 19.37 1.373 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
19518.0 0 125.0 19.37 1.373 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
19514.6 0 125.1 19.37 1.372 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
19511.6 0 125.1 19.37 1.371 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
19508.8 0 125.1 19.37 1.371 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
19506.1 0 125.1 19.37 1.370 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
19503.7 0 125.2 19.37 1.370 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
19501.3 0 125.2 19.37 1.369 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
19499.3 0 125.2 19.37 1.369 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19497.3 0 125.2 19.37 1.368 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19495.5 0 125.2 19.37 1.368 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19493.8 0 125.3 19.37 1.367 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19492.2 0 125.3 19.37 1.367 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19490.7 0 125.3 19.37 1.367 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19489.3 0 125.3 19.37 1.366 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19488.1 0 125.3 19.37 1.366 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19486.9 0 125.3 19.37 1.366 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19485.7 0 125.4 19.37 1.365 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19484.6 0 125.4 19.37 1.365 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19483.6 0 125.4 19.37 1.365 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
19482.7 0 125.4 19.37 1.365 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19481.8 0 125.4 19.37 1.364 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19481.0 0 125.4 19.37 1.364 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19480.2 0 125.4 19.37 1.364 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19479.5 0 125.4 19.37 1.364 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19478.8 0 125.4 19.37 1.364 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19478.2 0 125.5 19.37 1.363 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19477.6 0 125.5 19.37 1.363 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19477.1 0 125.5 19.37 1.363 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19476.5 0 125.5 19.37 1.363 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19476.0 0 125.5 19.37 1.363 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19475.5 0 125.5 19.37 1.363 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19475.1 0 125.5 19.37 1.363 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19474.7 0 125.5 19.37 1.362 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19474.3 0 125.5 19.37 1.362 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19473.9 0 125.5 19.37 1.362 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19473.6 0 125.5 19.37 1.362 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19473.3 0 125.5 19.37 1.362 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19472.9 0 125.5 19.37 1.362 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19472.6 0 125.5 19.37 1.362 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19472.4 0 125.6 19.37 1.362 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19472.1 0 125.6 19.37 1.362 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19471.8 0 125.6 19.37 1.362 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19471.6 0 125.6 19.37 1.362 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19471.4 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19471.2 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19471.0 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19470.8 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19470.6 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19470.4 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19470.3 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19470.1 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19470.0 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19469.8 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19469.7 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19469.6 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19469.4 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19469.3 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19469.2 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19469.1 0 125.6 19.37 1.361 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
19469.0 0 125.6 19.37 1.361 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19469.0 0 125.6 19.37 1.361 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.9 0 125.6 19.37 1.361 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.8 0 125.6 19.37 1.361 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.6 0 125.6 19.37 1.361 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.6 0 125.6 19.37 1.361 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.4 1 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.4 0 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.3 0 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.3 0 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.2 0 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.2 0 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.1 0 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.0 1 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19468.0 0 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19467.9 0 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19467.7 1 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19467.7 0 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19467.5 1 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19467.3 1 125.6 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19467.3 0 125.7 19.37 1.360 9.500
0.000 125.1 19.37 9.500
19467.1 1 125.7 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19466.9 1 125.7 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19466.8 1 125.7 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19466.8 0 125.7 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19466.7 1 125.7 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19466.5 1 125.7 19.37 1.359 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19466.5 0 125.7 19.37 1.360 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19466.4 1 125.7 19.37 1.359 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19466.3 1 125.7 19.37 1.359 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19466.1 1 125.7 19.37 1.359 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19466.0 1 125.7 19.37 1.359 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19465.8 1 125.7 19.37 1.359 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19465.7 1 125.7 19.37 1.359 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19465.5 1 125.7 19.37 1.359 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19465.3 1 125.7 19.37 1.359 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19465.2 1 125.7 19.37 1.359 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19465.1 1 125.7 19.37 1.359 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19465.0 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19464.8 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19464.7 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19464.5 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19464.4 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19464.3 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19464.2 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19464.1 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19463.9 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19463.8 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19463.7 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19463.6 1 125.7 19.37 1.358 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19463.5 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19463.3 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19463.2 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19463.1 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19463.1 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19462.9 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19462.7 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19462.7 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19462.6 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19462.5 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19462.4 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19462.3 1 125.7 19.37 1.357 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19462.2 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19462.1 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19462.0 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19461.9 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19461.8 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19461.7 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19461.6 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19461.5 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19461.4 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19461.3 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19461.3 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19461.2 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19461.1 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19461.0 1 125.7 19.37 1.356 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19460.9 1 125.7 19.37 1.355 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19460.8 1 125.7 19.37 1.355 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
19460.8 1 125.7 19.37 1.355 9.500
0.000 125.1 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.92E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.62E-02 | -0.98 -0.02 0.01 -0.19 -0.01
1.40E-02 | -0.19 0.00 0.00 0.98 0.04
3.75E+00 | -0.02 0.94 0.00 -0.02 0.33
1.95E+00 | 0.00 -0.33 0.00 -0.04 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 125.720 +/- 0.134206 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.88328 1
3 3 1 gaussian norm 1.35536 +/- 0.556874E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 125.117 +/- 0.136485 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.46392 2
8 3 3 gaussian norm 1.35536 = 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 = 19460.76 using 198 PHA bins.
Reduced chi-squared = 102.4251 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 ( 98.786) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 98.786) > 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 1.230 photons ( 2.5477E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.223 photons ( 2.5244E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:08 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.399 +/- 6.9083E-03
Net count rate (cts/s) for file 2 3.399 +/- 6.9083E-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 = 282339.8 using 168 PHA bins.
Reduced chi-squared = 1764.624 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17048.46 using 168 PHA bins.
Reduced chi-squared = 106.5529 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2373.02 -3 87.58 11.40 0.1947 0.8015
0.4699 88.50 10.71 0.8006
779.162 -4 83.20 10.17 0.1786 0.7819
0.4027 85.93 10.05 0.7832
752.039 -5 83.81 9.863 0.1830 0.7979
0.4290 86.08 10.08 0.7974
746.556 -6 83.69 9.591 0.1856 0.7998
0.4333 86.07 10.19 0.7997
746.396 -7 83.67 9.676 0.1864 0.8005
0.4345 86.07 10.17 0.8005
746.386 -8 83.68 9.645 0.1861 0.8001
0.4340 86.07 10.16 0.8002
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
4.52E-07 | 0.00 0.00 -0.20 0.56 -0.60 0.00 0.00 0.54
7.54E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
7.05E-06 | 0.00 0.01 -0.98 -0.08 0.16 0.00 0.04 -0.09
3.70E-04 | 0.02 0.02 -0.05 -0.44 -0.78 0.02 0.13 -0.43
1.92E-03 | -0.01 -0.09 0.04 0.06 0.09 0.01 0.99 0.06
4.47E-02 | 0.91 0.25 0.00 0.01 0.02 -0.33 0.03 0.01
5.27E-02 | -0.37 0.13 0.00 -0.01 -0.02 -0.92 0.02 -0.01
5.14E-02 | -0.19 0.95 0.01 0.01 0.02 0.21 0.08 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 83.6776 +/- 0.214566 1
2 2 1 gaussian Sigma keV 9.64542 +/- 0.224800 1
3 3 1 gaussian norm 0.186058 +/- 0.420409E-02 1
4 4 2 powerlaw PhoIndex 0.800146 +/- 0.993664E-02 1
5 5 2 powerlaw norm 0.434021 +/- 0.169290E-01 1
6 6 3 gaussian LineE keV 86.0696 +/- 0.227588 2
7 7 3 gaussian Sigma keV 10.1591 +/- 0.475437E-01 2
8 3 3 gaussian norm 0.186058 = par 3 2
9 8 4 powerlaw PhoIndex 0.800189 +/- 0.954674E-02 2
10 5 4 powerlaw norm 0.434021 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 746.3864 using 168 PHA bins.
Reduced chi-squared = 4.664915 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 ( 4.469) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.469) > 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 1.333 photons ( 1.6390E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.333 photons ( 1.6459E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
54.77285
=====best line=====
83.6749 0.214114
=====best sigma=====
9.65503 0.224294
=====norm=====
0.186179 0.419788E-02
=====phoindx=====
0.800291 0.992955E-02
=====pow_norm=====
0.434206 0.169086E-01
=====best line=====
86.0701 0.227894
=====best sigma=====
10.1689 0.474285E-01
=====norm=====
0.186179 par
=====phoindx=====
0.800312 0.954017E-02
=====pow_norm=====
0.434206 par
=====redu_chi=====
4.664865
=====area_flux=====
1.333
=====area_flux_f=====
1.333
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 13 1 640 2000 1338.7984 0 0.186179 0.419788E-02 9.65503 0.224294 0.800291 0.992955E-02 0.434206 0.169086E-01 1.333 640 2000 1377.1216 0 0.186179 0.419788E-02 10.1689 0.474285E-01 0.800312 0.954017E-02 0.434206 0.169086E-01 1.333 4.664865 1
=====redu_chi=====
564.9415
=====best line=====
125.720 0.134206
=====best sigma=====
19.3655 1.88328
=====norm=====
1.35536 0.556874E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
125.117 0.136485
=====best sigma=====
19.3655 1.46392
=====norm=====
1.35536 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
102.4251
=====area_flux=====
1.230
=====area_flux_f=====
1.223
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 13 1 1600 3200 2011.52 0 1.35536 0.556874E-02 309.848 30.13248 9.50000 -1.00000 0.00000 -1.00000 1.230 1600 3200 2001.872 0 1.35536 0.556874E-02 309.848 23.42272 9.50000 -1.00000 0.00000 -1.00000 1.223 102.4251 1
=====redu_chi=====
106.5529
=====best line=====
83.6776 0.214566
=====best sigma=====
9.64542 0.224800
=====norm=====
0.186058 0.420409E-02
=====phoindx=====
0.800146 0.993664E-02
=====pow_norm=====
0.434021 0.169290E-01
=====best line=====
86.0696 0.227588
=====best sigma=====
10.1591 0.475437E-01
=====norm=====
0.186058 par
=====phoindx=====
0.800189 0.954674E-02
=====pow_norm=====
0.434021 par
=====redu_chi=====
4.664915
=====area_flux=====
1.333
=====area_flux_f=====
1.333
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 13 1 640 2000 1338.8416 0 0.186058 0.420409E-02 9.64542 0.224800 0.800146 0.993664E-02 0.434021 0.169290E-01 1.333 640 2000 1377.1136 0 0.186058 0.420409E-02 10.1591 0.475437E-01 0.800189 0.954674E-02 0.434021 0.169290E-01 1.333 4.664915 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:08 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.406 +/- 5.8124E-03
Net count rate (cts/s) for file 2 2.406 +/- 5.8124E-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 = 586215.7 using 168 PHA bins.
Reduced chi-squared = 3663.848 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12628.34 using 168 PHA bins.
Reduced chi-squared = 78.92712 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2978.92 -3 83.24 16.63 0.2119 0.9861
0.5327 83.39 16.37 0.9800
1353.65 -3 76.66 9.333 0.1388 0.8287
0.3197 77.60 9.283 0.8345
856.502 -4 76.55 9.815 0.1496 0.8880
0.4165 78.21 11.87 0.8854
636.593 -5 76.74 9.416 0.1429 0.8859
0.4363 78.52 9.876 0.8861
635.829 -1 76.63 9.671 0.1473 0.8861
0.4352 78.34 10.39 0.8869
632.478 -2 76.66 9.661 0.1478 0.8860
0.4348 78.34 10.02 0.8868
632.405 -3 76.65 9.690 0.1484 0.8857
0.4340 78.32 10.13 0.8866
632.387 -1 76.66 9.681 0.1483 0.8857
0.4340 78.32 10.06 0.8865
632.361 -2 76.66 9.682 0.1483 0.8857
0.4339 78.32 10.09 0.8865
632.361 3 76.66 9.682 0.1483 0.8857
0.4339 78.32 10.09 0.8865
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.37E-07 | 0.00 0.00 -0.29 0.55 -0.59 0.00 0.00 0.52
1.11E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.66E-06 | 0.00 0.01 -0.96 -0.15 0.19 0.00 0.03 -0.16
4.77E-04 | 0.02 0.01 -0.02 -0.45 -0.78 0.02 0.04 -0.43
2.86E-03 | 0.00 0.09 -0.02 -0.02 -0.02 -0.02 -0.99 -0.02
6.77E-02 | -0.50 0.50 0.00 -0.01 -0.02 -0.70 0.06 -0.01
5.10E-02 | -0.76 -0.64 -0.01 -0.01 -0.02 0.08 -0.05 -0.01
5.65E-02 | 0.41 -0.58 0.00 -0.01 -0.01 -0.71 -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 76.6564 +/- 0.236833 1
2 2 1 gaussian Sigma keV 9.68198 +/- 0.237977 1
3 3 1 gaussian norm 0.148280 +/- 0.332930E-02 1
4 4 2 powerlaw PhoIndex 0.885701 +/- 0.104660E-01 1
5 5 2 powerlaw norm 0.433933 +/- 0.182876E-01 1
6 6 3 gaussian LineE keV 78.3194 +/- 0.248849 2
7 7 3 gaussian Sigma keV 10.0875 +/- 0.574599E-01 2
8 3 3 gaussian norm 0.148280 = par 3 2
9 8 4 powerlaw PhoIndex 0.886513 +/- 0.100501E-01 2
10 5 4 powerlaw norm 0.433933 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 632.3610 using 168 PHA bins.
Reduced chi-squared = 3.952256 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 ( 3.787) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.787) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9443 photons ( 1.1379E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9415 photons ( 1.1385E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:09 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.736 +/- 8.9747E-03
Net count rate (cts/s) for file 2 5.736 +/- 8.9747E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.330 +/- 1.0692E-02( 58.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.330 +/- 1.0692E-02( 58.1% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 1.0389004E+07 using 198 PHA bins.
Reduced chi-squared = 54678.97 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 77820.07 using 198 PHA bins.
Reduced chi-squared = 409.5793 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
41667.4 -3 118.7 18.90 0.3655 2.845
0.1467 110.2 18.91 2.790
18387.8 -2 107.1 19.31 1.274 9.001
3.6166E-02 111.4 19.26 8.312
17565.0 -1 109.1 19.36 1.269 9.342
2.1735E-03 111.3 19.32 9.359
17292.4 -1 110.2 19.36 1.272 9.495
9.0077E-04 111.3 19.35 9.445
15853.5 0 111.3 19.37 1.211 9.499
3.9659E-04 112.0 19.37 9.476
14915.6 0 112.5 19.37 1.169 9.500
9.1066E-05 112.8 19.37 9.497
14272.3 0 113.7 19.37 1.140 9.500
2.5404E-06 113.4 19.37 9.500
13832.3 0 114.6 19.37 1.118 9.500
1.0766E-06 114.0 19.37 9.500
13537.1 0 115.5 19.37 1.101 9.500
3.1988E-07 114.5 19.37 9.500
13340.6 0 116.1 19.37 1.087 9.500
1.2459E-07 114.9 19.37 9.500
13214.5 0 116.7 19.37 1.076 9.500
2.4673E-08 115.2 19.37 9.500
12996.6 0 117.7 19.37 1.052 9.500
1.4328E-09 115.6 19.37 9.500
12967.9 0 117.9 19.37 1.047 9.500
2.8697E-10 115.6 19.37 9.500
12949.7 0 118.1 19.37 1.044 9.500
1.4305E-10 115.7 19.37 9.500
12937.4 0 118.2 19.37 1.041 9.500
7.1173E-11 115.8 19.37 9.500
12929.2 0 118.3 19.37 1.039 9.500
3.5103E-11 115.8 19.37 9.500
12924.7 0 118.3 19.37 1.038 9.500
1.6953E-11 115.9 19.37 9.500
12922.3 0 118.4 19.37 1.037 9.500
7.8810E-12 115.9 19.37 9.500
12919.6 0 118.4 19.37 1.036 9.500
3.3427E-12 115.9 19.37 9.500
12916.4 0 118.5 19.37 1.035 9.500
1.0612E-12 115.9 19.37 9.500
12915.7 0 118.5 19.37 1.034 9.500
4.9152E-13 115.9 19.37 9.500
12873.4 0 118.5 19.37 1.032 9.500
1.4023E-13 115.9 19.31 9.500
12842.8 0 118.6 19.37 1.030 9.500
5.4485E-14 115.8 19.26 9.500
Fit parameter 5 has pegged
12773.6 0 118.5 19.37 1.024 9.500
0.000 115.6 18.94 9.500
Fit parameter 5 has pegged
12773.0 0 118.4 19.37 1.022 9.500
0.000 115.6 18.92 9.500
Fit parameter 5 has pegged
12772.3 0 118.4 19.37 1.021 9.500
0.000 115.7 18.90 9.500
Fit parameter 5 has pegged
12766.1 0 118.4 19.37 1.020 9.500
0.000 115.7 18.90 9.500
Fit parameter 5 has pegged
12760.4 0 118.5 19.37 1.019 9.500
0.000 115.7 18.90 9.500
Fit parameter 5 has pegged
12755.2 0 118.5 19.37 1.018 9.500
0.000 115.7 18.90 9.500
Fit parameter 5 has pegged
12750.4 0 118.6 19.37 1.017 9.500
0.000 115.7 18.90 9.500
Fit parameter 5 has pegged
12746.2 0 118.6 19.37 1.016 9.500
0.000 115.7 18.89 9.500
Fit parameter 5 has pegged
12742.2 0 118.7 19.37 1.015 9.500
0.000 115.7 18.89 9.500
Fit parameter 5 has pegged
12738.6 0 118.7 19.37 1.014 9.500
0.000 115.7 18.89 9.500
Fit parameter 5 has pegged
12735.2 0 118.7 19.37 1.013 9.500
0.000 115.7 18.88 9.500
Fit parameter 5 has pegged
12732.2 0 118.8 19.37 1.012 9.500
0.000 115.7 18.88 9.500
Fit parameter 5 has pegged
12729.3 0 118.8 19.37 1.011 9.500
0.000 115.7 18.88 9.500
Fit parameter 5 has pegged
12726.7 0 118.8 19.37 1.011 9.500
0.000 115.8 18.87 9.500
Fit parameter 5 has pegged
12724.4 0 118.9 19.37 1.010 9.500
0.000 115.8 18.87 9.500
Fit parameter 5 has pegged
12722.2 0 118.9 19.37 1.009 9.500
0.000 115.8 18.87 9.500
Fit parameter 5 has pegged
12720.0 0 118.9 19.37 1.009 9.500
0.000 115.8 18.86 9.500
Fit parameter 5 has pegged
12718.1 0 119.0 19.37 1.008 9.500
0.000 115.8 18.86 9.500
Fit parameter 5 has pegged
12716.4 0 119.0 19.37 1.008 9.500
0.000 115.8 18.86 9.500
Fit parameter 5 has pegged
12714.7 0 119.0 19.37 1.007 9.500
0.000 115.8 18.85 9.500
Fit parameter 5 has pegged
12713.1 0 119.0 19.37 1.007 9.500
0.000 115.8 18.85 9.500
Fit parameter 5 has pegged
12711.6 0 119.0 19.37 1.006 9.500
0.000 115.8 18.84 9.500
Fit parameter 5 has pegged
12710.3 0 119.1 19.37 1.006 9.500
0.000 115.8 18.84 9.500
Fit parameter 5 has pegged
12709.2 0 119.1 19.37 1.005 9.500
0.000 115.9 18.84 9.500
Fit parameter 5 has pegged
12707.9 0 119.1 19.37 1.005 9.500
0.000 115.9 18.83 9.500
Fit parameter 5 has pegged
12706.9 0 119.1 19.37 1.004 9.500
0.000 115.9 18.83 9.500
Fit parameter 5 has pegged
12705.8 0 119.1 19.37 1.004 9.500
0.000 115.9 18.83 9.500
Fit parameter 5 has pegged
12704.9 0 119.2 19.37 1.004 9.500
0.000 115.9 18.82 9.500
Fit parameter 5 has pegged
12704.0 0 119.2 19.37 1.003 9.500
0.000 115.9 18.82 9.500
Fit parameter 5 has pegged
12703.2 0 119.2 19.37 1.003 9.500
0.000 115.9 18.82 9.500
Fit parameter 5 has pegged
12702.3 0 119.2 19.37 1.003 9.500
0.000 115.9 18.81 9.500
Fit parameter 5 has pegged
12701.6 0 119.2 19.37 1.002 9.500
0.000 115.9 18.81 9.500
Fit parameter 5 has pegged
12700.9 0 119.2 19.37 1.002 9.500
0.000 115.9 18.80 9.500
Fit parameter 5 has pegged
12700.3 0 119.2 19.37 1.002 9.500
0.000 115.9 18.80 9.500
Fit parameter 5 has pegged
12699.7 0 119.3 19.37 1.001 9.500
0.000 116.0 18.80 9.500
Fit parameter 5 has pegged
12699.0 0 119.3 19.37 1.001 9.500
0.000 116.0 18.80 9.500
Fit parameter 5 has pegged
12698.5 0 119.3 19.37 1.001 9.500
0.000 116.0 18.79 9.500
Fit parameter 5 has pegged
12698.0 0 119.3 19.37 1.001 9.500
0.000 116.0 18.79 9.500
Fit parameter 5 has pegged
12697.5 0 119.3 19.37 1.000 9.500
0.000 116.0 18.79 9.500
Fit parameter 5 has pegged
12697.1 0 119.3 19.37 1.000 9.500
0.000 116.0 18.78 9.500
Fit parameter 5 has pegged
12696.6 0 119.3 19.37 0.9999 9.500
0.000 116.0 18.78 9.500
Fit parameter 5 has pegged
12696.1 0 119.3 19.37 0.9997 9.500
0.000 116.0 18.78 9.500
Fit parameter 5 has pegged
12695.8 0 119.3 19.37 0.9994 9.500
0.000 116.0 18.77 9.500
Fit parameter 5 has pegged
12695.3 0 119.3 19.37 0.9992 9.500
0.000 116.0 18.77 9.500
Fit parameter 5 has pegged
12694.9 0 119.3 19.37 0.9990 9.500
0.000 116.0 18.77 9.500
Fit parameter 5 has pegged
12694.6 0 119.4 19.37 0.9988 9.500
0.000 116.0 18.76 9.500
Fit parameter 5 has pegged
12694.3 0 119.4 19.37 0.9986 9.500
0.000 116.0 18.76 9.500
Fit parameter 5 has pegged
12694.0 0 119.4 19.37 0.9985 9.500
0.000 116.1 18.76 9.500
Fit parameter 5 has pegged
12693.8 0 119.4 19.37 0.9983 9.500
0.000 116.1 18.76 9.500
Fit parameter 5 has pegged
12693.4 0 119.4 19.37 0.9981 9.500
0.000 116.1 18.75 9.500
Fit parameter 5 has pegged
12693.2 0 119.4 19.37 0.9979 9.500
0.000 116.1 18.75 9.500
Fit parameter 5 has pegged
12692.9 0 119.4 19.37 0.9978 9.500
0.000 116.1 18.75 9.500
Fit parameter 5 has pegged
12692.7 0 119.4 19.37 0.9976 9.500
0.000 116.1 18.75 9.500
Fit parameter 5 has pegged
12692.5 0 119.4 19.37 0.9974 9.500
0.000 116.1 18.75 9.500
Fit parameter 5 has pegged
12692.3 0 119.4 19.37 0.9973 9.500
0.000 116.1 18.74 9.500
Fit parameter 5 has pegged
12692.0 0 119.4 19.37 0.9971 9.500
0.000 116.1 18.74 9.500
Fit parameter 5 has pegged
12691.9 0 119.4 19.37 0.9970 9.500
0.000 116.1 18.74 9.500
Fit parameter 5 has pegged
12691.6 0 119.4 19.37 0.9969 9.500
0.000 116.1 18.74 9.500
Fit parameter 5 has pegged
12691.4 0 119.4 19.37 0.9967 9.500
0.000 116.1 18.73 9.500
Fit parameter 5 has pegged
12691.3 0 119.4 19.37 0.9966 9.500
0.000 116.1 18.73 9.500
Fit parameter 5 has pegged
12691.1 0 119.4 19.37 0.9965 9.500
0.000 116.1 18.73 9.500
Fit parameter 5 has pegged
12690.9 0 119.4 19.37 0.9964 9.500
0.000 116.1 18.73 9.500
Fit parameter 5 has pegged
12690.8 0 119.4 19.37 0.9963 9.500
0.000 116.1 18.72 9.500
Fit parameter 5 has pegged
12690.7 0 119.4 19.37 0.9961 9.500
0.000 116.1 18.72 9.500
Fit parameter 5 has pegged
12690.5 0 119.4 19.37 0.9960 9.500
0.000 116.2 18.72 9.500
Fit parameter 5 has pegged
12690.3 0 119.4 19.37 0.9959 9.500
0.000 116.2 18.72 9.500
Fit parameter 5 has pegged
12690.2 0 119.4 19.37 0.9958 9.500
0.000 116.2 18.72 9.500
Fit parameter 5 has pegged
12690.2 0 119.4 19.37 0.9957 9.500
0.000 116.2 18.72 9.500
Fit parameter 5 has pegged
12690.0 0 119.5 19.37 0.9956 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12690.0 0 119.5 19.37 0.9955 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12689.8 0 119.5 19.37 0.9954 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12689.7 0 119.5 19.37 0.9953 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12689.6 0 119.5 19.37 0.9953 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12689.5 0 119.5 19.37 0.9952 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12689.4 0 119.5 19.37 0.9951 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12689.3 0 119.5 19.37 0.9950 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12689.2 0 119.5 19.37 0.9949 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12689.1 0 119.5 19.37 0.9948 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12689.1 0 119.5 19.37 0.9948 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12689.1 0 119.5 19.37 0.9947 9.500
0.000 116.2 18.70 9.500
12688.9 0 119.5 19.37 0.9946 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12688.8 0 119.5 19.37 0.9946 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12688.7 0 119.5 19.37 0.9945 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12688.7 4 119.5 19.37 0.9945 9.500
0.000 116.2 18.70 9.500
12688.7 4 119.5 19.37 0.9945 9.500
0.000 116.2 18.70 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.46E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.50E-02 | 0.15 0.00 0.01 -0.92 -0.35
2.13E-02 | -0.99 -0.06 0.01 -0.12 -0.11
2.92E+00 | 0.06 -1.00 0.00 0.03 -0.05
1.35E-01 | 0.05 0.06 -0.01 0.36 -0.93
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 119.486 +/- 0.179583 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.70207 1
3 3 1 gaussian norm 0.994493 +/- 0.512844E-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 116.235 +/- 0.181046 2
7 7 3 gaussian Sigma keV 18.6976 +/- 0.354274 2
8 3 3 gaussian norm 0.994493 = 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 = 12688.71 using 198 PHA bins.
Reduced chi-squared = 66.78268 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 ( 64.410) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 64.410) > 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 0.8381 photons ( 1.6787E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8029 photons ( 1.5767E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:09 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.406 +/- 5.8124E-03
Net count rate (cts/s) for file 2 2.406 +/- 5.8124E-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 = 681907.8 using 168 PHA bins.
Reduced chi-squared = 4261.924 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21065.72 using 168 PHA bins.
Reduced chi-squared = 131.6607 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3371.49 -3 85.92 14.39 0.1452 0.9656
0.5331 85.88 13.68 0.9575
1508.02 -4 73.70 16.28 0.1778 0.8754
0.3873 75.24 15.04 0.8790
838.272 -1 78.52 8.328 0.1484 0.8711
0.4024 78.86 9.557 0.8703
674.209 -2 76.86 10.21 0.1497 0.8744
0.4123 78.28 11.32 0.8750
638.640 -3 76.78 9.887 0.1439 0.8826
0.4294 78.41 9.931 0.8829
635.331 -1 76.69 9.643 0.1472 0.8827
0.4290 78.32 10.36 0.8835
632.490 -2 76.64 9.679 0.1479 0.8834
0.4298 78.32 10.03 0.8842
632.385 -3 76.65 9.679 0.1482 0.8850
0.4326 78.31 10.11 0.8858
632.385 -1 76.65 9.680 0.1482 0.8850
0.4327 78.32 10.06 0.8858
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.35E-07 | 0.00 0.00 -0.29 0.55 -0.59 0.00 0.00 0.52
1.11E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.67E-06 | 0.00 0.01 -0.96 -0.15 0.19 0.00 0.03 -0.16
4.75E-04 | 0.02 0.01 -0.02 -0.45 -0.78 0.02 0.04 -0.43
2.63E-03 | 0.00 0.08 -0.03 -0.02 -0.03 -0.02 -1.00 -0.02
6.79E-02 | 0.49 -0.49 0.00 0.01 0.02 0.72 -0.06 0.01
5.10E-02 | 0.76 0.64 0.01 0.01 0.02 -0.08 0.05 0.01
5.67E-02 | 0.42 -0.58 0.00 -0.01 -0.01 -0.69 -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 76.6521 +/- 0.236800 1
2 2 1 gaussian Sigma keV 9.68016 +/- 0.237977 1
3 3 1 gaussian norm 0.148237 +/- 0.333118E-02 1
4 4 2 powerlaw PhoIndex 0.885010 +/- 0.104685E-01 1
5 5 2 powerlaw norm 0.432665 +/- 0.182375E-01 1
6 6 3 gaussian LineE keV 78.3162 +/- 0.249804 2
7 7 3 gaussian Sigma keV 10.0605 +/- 0.551055E-01 2
8 3 3 gaussian norm 0.148237 = par 3 2
9 8 4 powerlaw PhoIndex 0.885813 +/- 0.100524E-01 2
10 5 4 powerlaw norm 0.432665 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 632.3851 using 168 PHA bins.
Reduced chi-squared = 3.952407 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 ( 3.787) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.787) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 0.9442 photons ( 1.1379E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9415 photons ( 1.1385E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
78.92712
=====best line=====
76.6564 0.236833
=====best sigma=====
9.68198 0.237977
=====norm=====
0.148280 0.332930E-02
=====phoindx=====
0.885701 0.104660E-01
=====pow_norm=====
0.433933 0.182876E-01
=====best line=====
78.3194 0.248849
=====best sigma=====
10.0875 0.574599E-01
=====norm=====
0.148280 par
=====phoindx=====
0.886513 0.100501E-01
=====pow_norm=====
0.433933 par
=====redu_chi=====
3.952256
=====area_flux=====
0.9443
=====area_flux_f=====
0.9415
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 14 1 640 2000 1226.5024 0 0.148280 0.332930E-02 9.68198 0.237977 0.885701 0.104660E-01 0.433933 0.182876E-01 0.9443 640 2000 1253.1104 0 0.148280 0.332930E-02 10.0875 0.574599E-01 0.886513 0.100501E-01 0.433933 0.182876E-01 0.9415 3.952256 1
=====redu_chi=====
409.5793
=====best line=====
119.486 0.179583
=====best sigma=====
19.3655 1.70207
=====norm=====
0.994493 0.512844E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.235 0.181046
=====best sigma=====
18.6976 0.354274
=====norm=====
0.994493 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
66.78268
=====area_flux=====
0.8381
=====area_flux_f=====
0.8029
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 14 1 1600 3200 1911.776 0 0.994493 0.512844E-02 309.848 27.23312 9.50000 -1.00000 0.00000 -1.00000 0.8381 1600 3200 1859.76 0 0.994493 0.512844E-02 299.1616 5.668384 9.50000 -1.00000 0.00000 -1.00000 0.8029 66.78268 1
=====redu_chi=====
131.6607
=====best line=====
76.6521 0.236800
=====best sigma=====
9.68016 0.237977
=====norm=====
0.148237 0.333118E-02
=====phoindx=====
0.885010 0.104685E-01
=====pow_norm=====
0.432665 0.182375E-01
=====best line=====
78.3162 0.249804
=====best sigma=====
10.0605 0.551055E-01
=====norm=====
0.148237 par
=====phoindx=====
0.885813 0.100524E-01
=====pow_norm=====
0.432665 par
=====redu_chi=====
3.952407
=====area_flux=====
0.9442
=====area_flux_f=====
0.9415
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 14 1 640 2000 1226.4336 0 0.148237 0.333118E-02 9.68016 0.237977 0.885010 0.104685E-01 0.432665 0.182375E-01 0.9442 640 2000 1253.0592 0 0.148237 0.333118E-02 10.0605 0.551055E-01 0.885813 0.100524E-01 0.432665 0.182375E-01 0.9415 3.952407 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:02:09 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.346 +/- 5.7392E-03
Net count rate (cts/s) for file 2 2.346 +/- 5.7392E-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 = 619757.5 using 168 PHA bins.
Reduced chi-squared = 3873.484 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 10360.16 using 168 PHA bins.
Reduced chi-squared = 64.75098 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1530.02 -3 84.18 15.43 0.1539 0.8960
0.4220 84.69 14.84 0.8919
903.041 -3 77.74 8.698 8.9130E-02 0.8234
0.3324 79.68 8.960 0.8252
685.969 -1 78.70 9.520 0.1200 0.8278
0.3321 80.77 11.51 0.8281
597.252 -2 78.74 9.425 0.1251 0.8443
0.3524 80.59 9.880 0.8436
595.098 0 78.73 9.466 0.1260 0.8442
0.3529 80.65 9.956 0.8438
594.410 0 78.72 9.494 0.1267 0.8442
0.3531 80.67 9.987 0.8441
592.012 -1 78.72 9.583 0.1283 0.8460
0.3551 80.69 10.13 0.8460
579.502 -2 78.79 9.624 0.1296 0.8591
0.3738 80.76 10.13 0.8587
576.130 -3 78.99 9.736 0.1323 0.8959
0.4303 80.97 10.30 0.8946
556.841 -4 79.08 9.770 0.1334 0.9097
0.4610 81.06 10.27 0.9092
555.177 -5 79.09 9.779 0.1335 0.9099
0.4636 81.06 10.28 0.9100
555.174 -6 79.09 9.777 0.1335 0.9098
0.4636 81.06 10.28 0.9100
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.79E-07 | 0.00 0.00 -0.31 0.55 -0.56 0.00 0.00 0.53
1.14E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
5.34E-06 | 0.00 0.01 -0.95 -0.16 0.20 0.00 0.03 -0.17
5.54E-04 | 0.02 0.01 -0.02 -0.43 -0.80 0.02 0.11 -0.41
1.82E-03 | 0.00 -0.07 0.03 0.05 0.08 0.01 0.99 0.05
6.10E-02 | 0.81 0.56 0.00 0.01 0.02 -0.16 0.04 0.01
7.80E-02 | -0.45 0.42 0.00 -0.01 -0.02 -0.79 0.04 -0.01
6.82E-02 | -0.37 0.72 0.01 0.01 0.01 0.59 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 79.0900 +/- 0.255605 1
2 2 1 gaussian Sigma keV 9.77719 +/- 0.259545 1
3 3 1 gaussian norm 0.133494 +/- 0.331006E-02 1
4 4 2 powerlaw PhoIndex 0.909822 +/- 0.110849E-01 1
5 5 2 powerlaw norm 0.463616 +/- 0.204102E-01 1
6 6 3 gaussian LineE keV 81.0594 +/- 0.272248 2
7 7 3 gaussian Sigma keV 10.2796 +/- 0.456753E-01 2
8 3 3 gaussian norm 0.133494 = par 3 2
9 8 4 powerlaw PhoIndex 0.909972 +/- 0.106502E-01 2
10 5 4 powerlaw norm 0.463616 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 555.1738 using 168 PHA bins.
Reduced chi-squared = 3.469836 for 160 degrees of freedom
Null hypothesis probability = 4.204E-45
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 ( 3.324) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.324) > 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 0.9008 photons ( 1.0883E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9003 photons ( 1.0919E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:02:09 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 5.457 +/- 8.7538E-03
Net count rate (cts/s) for file 2 5.457 +/- 8.7538E-03
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 3.111 +/- 1.0467E-02( 57.0% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 3.111 +/- 1.0467E-02( 57.0% total)
using background file... ae703029010_hxdmkgainhist_tmp/ae703029010_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 = 7479826. using 198 PHA bins.
Reduced chi-squared = 39367.50 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 86110.98 using 198 PHA bins.
Reduced chi-squared = 453.2157 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
46483.3 -3 118.0 18.10 0.3986 2.877
0.2232 111.3 17.89 2.833
30655.9 -3 106.8 19.07 1.444 7.147
2.8318E-03 106.9 19.24 8.317
29680.3 -1 107.5 19.26 1.450 8.622
6.6139E-04 107.8 19.34 9.194
28829.6 -1 108.1 19.36 1.445 9.498
3.2993E-05 108.6 19.36 9.412
28273.0 -1 108.7 19.36 1.440 9.499
9.3976E-06 109.2 19.37 9.476
27823.3 -1 109.1 19.37 1.435 -0.9259
5.3322E-07 109.6 19.37 9.490
26988.3 -1 109.5 19.37 1.419 -0.8249
8.1946E-08 110.1 19.37 9.497
26453.0 -1 110.0 19.37 1.411 -0.5650
9.1175E-09 110.5 19.37 9.500
25847.4 -2 108.7 19.37 1.379 9.401
406.5 111.0 19.37 9.500
22857.7 0 110.4 19.37 1.301 2.845
86.98 112.2 19.37 9.500
21929.6 -1 111.9 19.37 1.299 2.951
101.0 113.1 19.37 9.500
20902.0 -1 113.1 19.37 1.281 3.067
125.8 113.7 19.37 9.500
20359.6 -1 113.9 19.37 1.273 3.293
174.6 114.1 19.37 9.500
19769.8 -1 114.6 19.37 1.261 3.353
47.40 114.5 19.37 9.500
19381.0 -1 115.0 19.37 1.252 7.517
832.1 114.8 19.37 9.500
19139.7 -1 115.4 19.37 1.248 9.367
262.4 115.0 19.37 9.500
17793.6 0 116.2 19.37 1.200 9.485
60.33 115.9 19.37 9.500
16924.6 0 117.1 19.37 1.169 9.496
21.62 116.7 19.37 9.500
16335.8 0 117.9 19.37 1.147 9.499
0.9789 117.4 19.37 9.500
15944.4 0 118.5 19.37 1.131 9.500
0.3057 118.0 19.37 9.500
15675.8 0 119.1 19.37 1.120 9.500
0.1350 118.4 19.37 9.500
15483.2 0 119.6 19.37 1.110 9.500
4.6691E-02 118.8 19.37 9.500
15353.0 0 119.9 19.37 1.103 9.500
2.3624E-03 119.0 19.37 9.500
15264.2 0 120.2 19.37 1.099 9.500
8.4707E-05 119.2 19.37 9.500
15197.5 0 120.5 19.37 1.094 9.500
4.0586E-05 119.3 19.37 9.500
15149.7 0 120.7 19.37 1.091 9.500
1.8433E-05 119.4 19.37 9.500
15112.4 0 120.8 19.37 1.089 9.500
7.1935E-06 119.5 19.37 9.500
15060.2 0 121.0 19.37 1.084 9.500
3.6163E-08 119.7 19.37 9.500
15043.4 0 121.1 19.37 1.083 9.500
1.2269E-08 119.7 19.37 9.500
15029.6 0 121.2 19.37 1.081 9.500
3.2159E-10 119.7 19.37 9.500
15020.8 0 121.2 19.37 1.080 9.500
1.3373E-10 119.8 19.37 9.500
15015.3 0 121.2 19.37 1.080 9.500
3.9818E-11 119.8 19.37 9.500
15011.9 0 121.3 19.37 1.080 9.500
1.6445E-11 119.8 19.37 9.500
15006.8 0 121.3 19.37 1.079 9.500
4.6834E-12 119.8 19.37 9.500
15003.0 0 121.3 19.37 1.079 9.500
1.7600E-12 119.8 19.37 9.500
15000.1 0 121.3 19.37 1.078 9.500
2.8604E-13 119.8 19.37 9.500
Fit parameter 5 has pegged
14961.3 0 121.3 19.37 1.073 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14955.6 0 121.3 19.37 1.071 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
14934.0 0 121.3 19.37 1.068 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
14914.5 0 121.4 19.37 1.065 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
14897.1 0 121.5 19.37 1.063 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
14881.5 0 121.5 19.37 1.060 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
14867.4 0 121.6 19.37 1.058 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
14854.6 0 121.6 19.37 1.056 9.500
0.000 119.5 19.37 9.500
Fit parameter 5 has pegged
14843.1 0 121.7 19.37 1.055 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14832.5 0 121.8 19.37 1.053 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14822.9 0 121.8 19.37 1.051 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14814.2 0 121.9 19.37 1.050 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14806.3 0 121.9 19.37 1.048 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14798.9 0 122.0 19.37 1.047 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14792.3 0 122.0 19.37 1.046 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14786.1 0 122.1 19.37 1.045 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14780.5 0 122.1 19.37 1.044 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14775.3 0 122.1 19.37 1.043 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14770.5 0 122.2 19.37 1.042 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14766.1 0 122.2 19.37 1.041 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14762.1 0 122.3 19.37 1.040 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14758.4 0 122.3 19.37 1.039 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14755.0 0 122.3 19.37 1.038 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14751.8 0 122.4 19.37 1.038 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14748.9 0 122.4 19.37 1.037 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14746.2 0 122.4 19.37 1.037 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14743.6 0 122.5 19.37 1.036 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14741.3 0 122.5 19.37 1.035 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14739.2 0 122.5 19.37 1.035 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14737.2 0 122.5 19.37 1.034 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14735.3 0 122.6 19.37 1.034 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14733.6 0 122.6 19.37 1.034 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14732.0 0 122.6 19.37 1.033 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14730.5 0 122.6 19.37 1.033 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14729.2 0 122.7 19.37 1.032 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14727.9 0 122.7 19.37 1.032 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14726.7 0 122.7 19.37 1.032 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14725.6 0 122.7 19.37 1.031 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14724.6 0 122.7 19.37 1.031 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14723.6 0 122.7 19.37 1.031 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14722.7 0 122.8 19.37 1.031 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14721.9 0 122.8 19.37 1.030 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14721.1 0 122.8 19.37 1.030 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14720.3 0 122.8 19.37 1.030 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14719.6 0 122.8 19.37 1.030 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14719.0 0 122.8 19.37 1.029 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14718.4 0 122.8 19.37 1.029 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14717.7 0 122.9 19.37 1.029 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14717.3 0 122.9 19.37 1.029 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14716.8 0 122.9 19.37 1.029 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14716.3 0 122.9 19.37 1.029 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14715.9 0 122.9 19.37 1.028 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14715.5 0 122.9 19.37 1.028 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14715.1 0 122.9 19.37 1.028 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14714.7 0 122.9 19.37 1.028 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14714.4 0 122.9 19.37 1.028 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14714.1 0 122.9 19.37 1.028 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14713.7 0 123.0 19.37 1.028 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14713.5 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14713.2 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14713.0 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14712.7 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14712.5 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14712.3 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14712.1 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14712.0 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14711.8 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14711.6 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14711.4 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14711.3 0 123.0 19.37 1.027 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14711.1 0 123.0 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14711.0 0 123.0 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14710.9 0 123.0 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14710.7 0 123.0 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14710.5 0 123.0 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14710.5 0 123.0 19.37 1.026 9.500
0.000 119.9 19.37 9.500
14710.2 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14710.2 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14710.0 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14710.0 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14709.9 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14709.8 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14709.8 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14709.7 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14709.6 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14709.5 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14709.5 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14709.4 0 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14709.4 5 123.1 19.37 1.026 9.500
0.000 119.9 19.37 9.500
14709.3 0 123.1 19.37 1.026 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14709.2 1 123.1 19.37 1.026 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14709.2 0 123.1 19.37 1.026 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14709.2 0 123.1 19.37 1.026 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14709.2 0 123.1 19.37 1.026 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14709.1 0 123.1 19.37 1.026 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14709.0 0 123.1 19.37 1.026 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14709.0 1 123.1 19.37 1.026 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14709.0 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
14708.8 0 123.1 19.37 1.026 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.8 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
14708.8 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.8 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.7 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.7 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.6 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.6 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.6 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
14708.5 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.5 1 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.4 1 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.4 1 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.3 1 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.3 4 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
14708.3 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.2 1 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.2 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.2 1 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.1 1 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.1 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.1 1 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.1 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.0 1 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14708.0 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
14707.9 1 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14707.9 3 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
14707.9 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14707.9 1 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14707.9 0 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
14707.8 3 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14707.8 3 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
14707.8 2 123.1 19.37 1.025 9.500
0.000 120.0 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
1.39E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.63E-02 | 0.22 0.00 0.01 -0.97 -0.07
2.00E-02 | -0.97 -0.04 0.01 -0.22 -0.02
3.60E+00 | -0.04 0.93 0.00 -0.03 0.36
1.96E+00 | 0.01 -0.36 0.00 -0.06 0.93
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 123.130 +/- 0.156984 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.83888 1
3 3 1 gaussian norm 1.02480 +/- 0.479895E-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 119.973 +/- 0.167521 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.46964 2
8 3 3 gaussian norm 1.02480 = 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 = 14707.79 using 198 PHA bins.
Reduced chi-squared = 77.40945 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 ( 74.659) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 74.659) > 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 0.9056 photons ( 1.8488E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8698 photons ( 1.7464E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_slow.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_fast.pha
with integration time 7.1212E+04
Background file : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:02:10 17-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 2.346 +/- 5.7392E-03
Net count rate (cts/s) for file 2 2.346 +/- 5.7392E-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 = 704580.4 using 168 PHA bins.
Reduced chi-squared = 4403.628 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17380.73 using 168 PHA bins.
Reduced chi-squared = 108.6296 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1811.57 -3 86.28 13.11 0.1259 0.9275
0.4737 86.68 12.08 0.9205
864.682 -4 76.72 13.04 0.1331 0.8779
0.4019 79.37 11.75 0.8791
775.760 -5 81.45 9.387 0.1105 0.9281
0.4983 81.96 9.750 0.9258
651.478 -1 79.16 11.12 0.1305 0.9262
0.4983 81.20 11.63 0.9260
567.519 -2 79.52 9.846 0.1273 0.9214
0.4913 81.27 9.912 0.9217
561.194 0 79.36 9.712 0.1291 0.9217
0.4907 81.24 10.11 0.9219
556.847 -1 79.17 9.801 0.1334 0.9220
0.4886 81.15 10.34 0.9222
556.049 -2 79.15 9.819 0.1344 0.9197
0.4833 81.12 10.31 0.9200
555.288 -3 79.11 9.785 0.1337 0.9125
0.4692 81.08 10.29 0.9130
555.183 -4 79.09 9.779 0.1335 0.9099
0.4639 81.06 10.28 0.9101
555.174 -5 79.09 9.777 0.1335 0.9098
0.4636 81.06 10.28 0.9100
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.79E-07 | 0.00 0.00 -0.31 0.55 -0.56 0.00 0.00 0.53
1.14E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
5.34E-06 | 0.00 0.01 -0.95 -0.16 0.20 0.00 0.03 -0.17
5.54E-04 | 0.02 0.01 -0.02 -0.43 -0.80 0.02 0.11 -0.41
1.83E-03 | 0.00 -0.07 0.03 0.05 0.08 0.01 0.99 0.05
6.10E-02 | 0.81 0.56 0.00 0.01 0.02 -0.17 0.04 0.01
7.80E-02 | -0.45 0.42 0.00 -0.01 -0.02 -0.79 0.04 -0.01
6.82E-02 | -0.37 0.72 0.01 0.01 0.01 0.59 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 79.0902 +/- 0.255642 1
2 2 1 gaussian Sigma keV 9.77735 +/- 0.259545 1
3 3 1 gaussian norm 0.133497 +/- 0.330996E-02 1
4 4 2 powerlaw PhoIndex 0.909819 +/- 0.110816E-01 1
5 5 2 powerlaw norm 0.463622 +/- 0.204180E-01 1
6 6 3 gaussian LineE keV 81.0593 +/- 0.272138 2
7 7 3 gaussian Sigma keV 10.2801 +/- 0.458139E-01 2
8 3 3 gaussian norm 0.133497 = par 3 2
9 8 4 powerlaw PhoIndex 0.909976 +/- 0.106474E-01 2
10 5 4 powerlaw norm 0.463622 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 555.1739 using 168 PHA bins.
Reduced chi-squared = 3.469837 for 160 degrees of freedom
Null hypothesis probability = 4.204E-45
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 ( 3.324) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.324) > 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 0.9008 photons ( 1.0883E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 0.9003 photons ( 1.0919E-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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.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 : ae703029010_hxdmkgainhist_tmp/ae703029010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 7.1212E+04
No current background
No current correction
Response (RMF) file : ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.680069774697555E+08 2.680094514693669E+08 2.680155714685261E+08 2.680216454677959E+08 2.680276175908049E+08 2.680335855899993E+08 2.680394655892040E+08 2.680449295884541E+08 2.680835255832406E+08 2.680896575825239E+08 2.680957455818153E+08 2.681018975807377E+08 2.681079135800507E+08 2.681138975791231E+08 2.681198655783194E+08 2.681256895775298E+08 2.681636615724174E+08 2.681698375716914E+08 2.681759535709767E+08 2.681820614460762E+08 2.681882134451718E+08
=====gti=====
=====redu_chi=====
64.75098
=====best line=====
79.0900 0.255605
=====best sigma=====
9.77719 0.259545
=====norm=====
0.133494 0.331006E-02
=====phoindx=====
0.909822 0.110849E-01
=====pow_norm=====
0.463616 0.204102E-01
=====best line=====
81.0594 0.272248
=====best sigma=====
10.2796 0.456753E-01
=====norm=====
0.133494 par
=====phoindx=====
0.909972 0.106502E-01
=====pow_norm=====
0.463616 par
=====redu_chi=====
3.469836
=====area_flux=====
0.9008
=====area_flux_f=====
0.9003
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 15 1 640 2000 1265.44 0 0.133494 0.331006E-02 9.77719 0.259545 0.909822 0.110849E-01 0.463616 0.204102E-01 0.9008 640 2000 1296.9504 0 0.133494 0.331006E-02 10.2796 0.456753E-01 0.909972 0.106502E-01 0.463616 0.204102E-01 0.9003 3.469836 1
=====redu_chi=====
453.2157
=====best line=====
123.130 0.156984
=====best sigma=====
19.3655 1.83888
=====norm=====
1.02480 0.479895E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.973 0.167521
=====best sigma=====
19.3655 1.46964
=====norm=====
1.02480 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
77.40945
=====area_flux=====
0.9056
=====area_flux_f=====
0.8698
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 15 1 1600 3200 1970.08 0 1.02480 0.479895E-02 309.848 29.42208 9.50000 -1.00000 0.00000 -1.00000 0.9056 1600 3200 1919.568 0 1.02480 0.479895E-02 309.848 23.51424 9.50001 -1.00000 0.00000 -1.00000 0.8698 77.40945 1
=====redu_chi=====
108.6296
=====best line=====
79.0902 0.255642
=====best sigma=====
9.77735 0.259545
=====norm=====
0.133497 0.330996E-02
=====phoindx=====
0.909819 0.110816E-01
=====pow_norm=====
0.463622 0.204180E-01
=====best line=====
81.0593 0.272138
=====best sigma=====
10.2801 0.458139E-01
=====norm=====
0.133497 par
=====phoindx=====
0.909976 0.106474E-01
=====pow_norm=====
0.463622 par
=====redu_chi=====
3.469837
=====area_flux=====
0.9008
=====area_flux_f=====
0.9003
=====exp=====
7.1212E+04
=====exp=====
7.1212E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.680069774697555E+08 2.681907094448397E+08 7.1212E+04 15 1 640 2000 1265.4432 0 0.133497 0.330996E-02 9.77735 0.259545 0.909819 0.110816E-01 0.463622 0.204180E-01 0.9008 640 2000 1296.9488 0 0.133497 0.330996E-02 10.2801 0.458139E-01 0.909976 0.106474E-01 0.463622 0.204180E-01 0.9003 3.469837 1
rm -rf ae703029010_xspec*.log xspec*.xcm xautosav.xcm ae703029010_hxdmkgainhist_tmp/ae703029010dmy.rsp
rm -rf ae703029010_hxdmkgainhist_tmp
-> hxdmkgainhist_gso successful for ae703029010hxd_2_wel.sff.input_name,f,a,"ae703029010hxd_2_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae703029010hxd_0.hk",,,"HK file name" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" process_id,s,a,"ae703029010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_pin
FFF= ae703029010hxd_2_wel.sff, HK= ae703029010hxd_0.hk TSTART 2.681032535805728E+08, TSOP 2.681907094448397E+08-> hxdmkgainhist_pin successful for ae703029010hxd_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,"ae703029010hxd_2_wel.sff",,,"HXD event fits file name ?" phaextractor_mode,b,a,n,,,"PHA Extractor Mode : yes or no" ghfwrite_mode,b,a,y,,,"GHF FITS write Mode : yes or no" phaextractor_base_name,s,a,"",,,"PHA base name in PHA extractor mode" phaextractor_gti_list,f,a,"",,,"GTI file list in PHA extractor mode" phaextractor_extract_gso,b,h,y,,,"Extract GSO PHA or not : yes or no " phaextractor_extract_pin,b,h,n,,,"Extract PIN PHA or not : yes or no " phaextractor_gso_detchan,i,h,256,,,"Extract GSO Channel" phaextractor_pin_detchan,i,h,256,,,"Extract PIN Channel" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" gso_fitlog_name,f,a,"@hxd_gso_ghf.list",,,"HXD gso fitlog file name" valid_date,s,ql,"2008-07-17",,,"Valid Date (YYYY-MM-DD)for Gain History Files" valid_time,s,a,"14:02:12",,,"Valid Time (hh:mm:ss) for Gain History Files" pin_gainhist_name,f,a,"!ae703029010hxd_2_pin.ghf",,,"HXD pin gainhistory file name" gso_gainhist_name,f,a,"!ae703029010hxd_2_gso.ghf",,,"HXD gso gainhistory file name" gainhistory_iomode,s,h,"no",,,"Add result to gainhistory file: yes or no ?" leapfile,f,a,"CALDB",,,"leapsec file name" use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDmkgainhist version 2.0.1
-- Functions by HXD team --
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdeventFitsToBnkUtil version 2.0.0
hxdFitsHeaderUtil version 2.0.3
hxdcaldbUtil version 0.7.1
gain history script version 1.3.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmkgainhistWriteGHF version 0.4.5
[ 4] HXDmkgainhistWritePHA version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
|
[ 1] HXDeventFitsRead version 2.0.2
| OK: 1/1
[ 2] HXDleapsecInit version 2.0.1
QUIT: 1 | OK: 1/1
<--- [ 3] HXDmkgainhistWriteGHF version 0.4.5
| OK: 0/1
[ 4] HXDmkgainhistWritePHA version 2.0.0
| OK: 0/0
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 78/5000
buffer size : 120000
buffer used : 11008
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
HXD:PIL:read_iomode 256 8 1 0 SINGLE
HXD:PIL:time_change 4 0 0 0 SINGLE
HXD:PIL:grade_change 4 0 0 0 SINGLE
HXD:PIL:pi_pmt_change 4 0 0 0 SINGLE
HXD:PIL:pi_pin_change 4 0 0 0 SINGLE
HXD:PIL:gtimode 4 4 1 0 SINGLE
HXD:PIL:gti_time 256 6 1 0 SINGLE
HXD:PIL:input_name 256 24 1 0 SINGLE
HXD:PIL:create_name 256 0 0 0 SINGLE
HXD:PIL:use_pwh_mode 256 4 1 0 SINGLE
HXD:ftools:hxdtime_yn 4 4 1 0 SINGLE
HXD:ftools:hxdmkgainhist_yn 4 4 2 0 SINGLE
HXD:ftools:hxdpi_yn 4 4 1 0 SINGLE
HXD:ftools:hxdgrade_yn 4 4 1 0 SINGLE
HXD:PIL:ghfwrite_mode 4 4 1 0 SINGLE
HXD:PIL:pin_fitlog_name 256 11 1 0 SINGLE
HXD:PIL:gso_fitlog_list 256 17 1 0 SINGLE
HXD:PIL:gso_gdalph_name 256 14 1 0 SINGLE
HXD:PIL:gso_annihi_name 256 15 1 0 SINGLE
HXD:PIL:gso_gd150k_name 256 17 1 0 SINGLE
HXD:PIL:valid_date 256 8 2 0 SINGLE
HXD:PIL:valid_time 256 0 0 0 SINGLE
HXD:PIL:pin_gainhist_name 256 25 1 0 SINGLE
HXD:PIL:gso_gainhist_name 256 25 1 0 SINGLE
HXD:PIL:gainhistory_iomode 256 2 1 0 SINGLE
HXDeventFitsRead:IROW 4 4 1 0 SINGLE
HXD:WEL:EV_TIME 8 8 1 0 SINGLE
HXD:WEL:MTI 4 4 1 0 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 1 0 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 1 0 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 1 0 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 1 0 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 1 0 SINGLE
HXD:WEL:GRADE_RESERV 4 4 1 0 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 1 0 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 1 0 SINGLE
HXD:WEL:DET_TYPE 4 4 1 0 SINGLE
HXD:WEL:PI_FAST 4 4 1 0 SINGLE
HXD:WEL:PI_SLOW 4 4 1 0 SINGLE
HXD:WEL:PI_PIN 16 16 1 0 SINGLE
HXD:WEL:UPI_FAST 8 8 1 0 SINGLE
HXD:WEL:UPI_SLOW 8 8 1 0 SINGLE
HXD:WEL:UPI_PIN 32 32 1 0 SINGLE
HXD:WEL:PIN_ID 4 4 1 0 SINGLE
HXD:WEL:UNITID 4 4 1 0 SINGLE
HXD:WEL:LENGTH_CHK 4 4 1 0 SINGLE
HXD:WEL:WELTIME 4 4 1 0 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 1 0 SINGLE
HXD:WEL:TRIG 4 4 1 0 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 1 0 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 1 0 SINGLE
HXD:WEL:PHA_FAST 4 4 1 0 SINGLE
HXD:WEL:PHA_SLOW 4 4 1 0 SINGLE
HXD:WEL:PHA_PIN 16 16 1 0 SINGLE
HXD:WEL:PACKET_AETIME 8 8 1 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 1 0 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 1 0 SINGLE
HXDeventFitsRead:FILE_P 4 4 1 0 SINGLE
HXDeventFitsRead:FILE_NAME 1999 25 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_NAME 1999 1 1 0 SINGLE
HXDeventFitsRead:NEW_FILE_P 4 4 1 0 SINGLE
HXDeventFitsRead:IOMODE 4 4 1 0 SINGLE
HXDeventFitsRead:GTIMODE 4 4 1 0 SINGLE
HXDeventFitsRead:NROW 4 4 1 0 SINGLE
HXDeventFitsRead:EV_TIME:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:GRADE:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:PI_PMT:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:PI_PIN:CHANGE 4 4 1 0 SINGLE
HXDeventFitsRead:USE_PWH 4 4 1 0 SINGLE
HXDeventFitsRead:TSTART 8 8 1 0 SINGLE
HXDeventFitsRead:TSTOP 8 8 1 0 SINGLE
HXDeventFitsRead:TELAPSE 8 8 1 0 SINGLE
HXDeventFitsRead:ONTIME 8 8 1 0 SINGLE
HXD:ALL:EVENTTYPE 4 4 1 0 SINGLE
HXD:ALL:UPDATE 4 4 1 0 SINGLE
HXD:WEL:EVENT 204 204 1 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 0.014 0.002 0.016 12.03
[ 2] HXDleapsecInit 0.005 0.000 0.005 3.76
[ 3] HXDmkgainhistWriteGHF 0.061 0.006 0.067 50.38
[ 4] HXDmkgainhistWritePHA 0.002 0.001 0.003 2.25
(others) 0.029 0.013 0.042 31.58
--------------------------------------------------------------------------
TOTAL 0.111 0.022 0.133 100.00
-> hxdmkgainhist successful for ae703029010hxd_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,"ae703029010hxd_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: ae703029010hxd_0.hk
2: ae703029010.ehk
HXDpi_init: time duration = 268103253.458509 -- 268190709.446939
Opening GSO calibration files OK
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TEMP_W10_CAL' at hdu=2, col=111 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W11_CAL' at hdu=2, col=112 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W12_CAL' at hdu=2, col=113 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W13_CAL' at hdu=2, col=114 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W20_CAL' at hdu=2, col=115 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W21_CAL' at hdu=2, col=116 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W22_CAL' at hdu=2, col=117 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W23_CAL' at hdu=2, col=118 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W00_CAL' at hdu=2, col=119 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W01_CAL' at hdu=2, col=120 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W02_CAL' at hdu=2, col=121 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W03_CAL' at hdu=2, col=122 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W30_CAL' at hdu=2, col=123 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W31_CAL' at hdu=2, col=124 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W32_CAL' at hdu=2, col=125 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W33_CAL' at hdu=2, col=126 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T10_CAL' at hdu=2, col=127 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T12_CAL' at hdu=2, col=128 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T14_CAL' at hdu=2, col=129 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T21_CAL' at hdu=2, col=130 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T23_CAL' at hdu=2, col=131 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W2_CAL' at hdu=2, col=132 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P1_CAL' at hdu=2, col=133 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T1_CAL' at hdu=2, col=134 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T00_CAL' at hdu=2, col=135 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T02_CAL' at hdu=2, col=136 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T04_CAL' at hdu=2, col=137 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T31_CAL' at hdu=2, col=138 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T33_CAL' at hdu=2, col=139 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W0_CAL' at hdu=2, col=140 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P0_CAL' at hdu=2, col=141 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T3_CAL' at hdu=2, col=142 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP4_CAL' at hdu=2, col=143 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP3_CAL' at hdu=2, col=144 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY4_CAL' at hdu=2, col=145 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY3_CAL' at hdu=2, col=146 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM3_CAL' at hdu=2, col=147 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM4_CAL' at hdu=2, col=148 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR3_CAL' at hdu=2, col=149 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CENTER_CAL' at hdu=2, col=150 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP2_CAL' at hdu=2, col=151 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP1_CAL' at hdu=2, col=152 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY2_CAL' at hdu=2, col=153 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY1_CAL' at hdu=2, col=154 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM1_CAL' at hdu=2, col=155 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM2_CAL' at hdu=2, col=156 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR1_CAL' at hdu=2, col=157 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR2_CAL' at hdu=2, col=158 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'T_SAA_HXD' at hdu=2, col=29 in 'ae703029010.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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 8949117
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 8949116/8949117
[ 2] HXDrndInit version 0.2.0
| OK: 8949116/8949116
[ 3] HXDgethkInit version 0.1.0
| OK: 8949116/8949116
[ 4] HXDpiFITS version 2.1.3
| OK: 8949116/8949116
[ 5] HXDpi version 2.1.3
| OK: 8949116/8949116
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 8949116/8949116
GET: 8949116
*** 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 8949116 0 SINGLE
HXD:WEL:EV_TIME 8 8 8949116 8949116 SINGLE
HXD:WEL:MTI 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 8949116 8949116 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_RESERV 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 8949116 8949116 SINGLE
HXD:WEL:DET_TYPE 4 4 8949116 8949116 SINGLE
HXD:WEL:PI_FAST 4 4 17898232 8949116 SINGLE
HXD:WEL:PI_SLOW 4 4 17898232 8949116 SINGLE
HXD:WEL:PI_PIN 16 16 17898232 8949116 SINGLE
HXD:WEL:UPI_FAST 8 8 17898232 8949116 SINGLE
HXD:WEL:UPI_SLOW 8 8 17898232 8949116 SINGLE
HXD:WEL:UPI_PIN 32 32 17898232 8949116 SINGLE
HXD:WEL:PIN_ID 4 4 8949116 8949116 SINGLE
HXD:WEL:UNITID 4 4 8949116 8949116 SINGLE
HXD:WEL:LENGTH_CHK 4 4 8949116 8949116 SINGLE
HXD:WEL:WELTIME 4 4 8949116 8949116 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 8949116 8949116 SINGLE
HXD:WEL:TRIG 4 4 8949116 8949116 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 8949116 8949116 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 8949116 8949116 SINGLE
HXD:WEL:PHA_FAST 4 4 8949116 8949116 SINGLE
HXD:WEL:PHA_SLOW 4 4 8949116 8949116 SINGLE
HXD:WEL:PHA_PIN 16 16 8949116 8949116 SINGLE
HXD:WEL:PACKET_AETIME 8 8 8949116 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 8949116 17897224 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 8949116 8949116 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 8949116 17898232 SINGLE
HXD:WEL:EVENT 204 204 17898232 17898232 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 19124 8948108 SINGLE
HXDpi:EHKDATA 136 136 19124 8948108 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 198.747 13.119 211.866 38.92
[ 2] HXDrndInit 2.762 5.334 8.096 1.49
[ 3] HXDgethkInit 2.197 4.931 7.128 1.31
[ 4] HXDpiFITS 6.756 5.435 12.191 2.24
[ 5] HXDpi 66.079 4.852 70.931 13.03
[ 6] HXD2ndeventFitsWrite 199.449 34.722 234.171 43.01
(others) 0.017 0.008 0.025 0.00
--------------------------------------------------------------------------
TOTAL 476.006 68.402 544.407 100.00
-> hxdpi successful for ae703029010hxd_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,"ae703029010hxd_2_wel.sff",,,"HXD event fits file name ?"
create_name,f,a,"hxdgrade_out.evt",,,"HXD event fits created file name ?"
leapfile,f,a,"CALDB;$ENV{LHEA_DATA}/leapsec.fits",,,"leapsec file name"
hxdgrade_psdsel_fname,f,a,"CALDB",,,"File name for the GRADE PSD Selection."
hxdgrade_pinthres_fname,f,a,"CALDB",,,"File name for the GRADE PIN Threshold."
hxdgrade_psdsel_criteria,r,h,2.1,,,"PSD selection criteria."
use_pwh_mode,b,h,n,,,"Use PWH in time assignment ?"
num_event,i,h,-1,,,"number of event (-1=all,0=exit)"
event_freq,i,h,100000,,,"Event number printout frequency"
anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)"
anl_profile,b,h,yes,,,"Enable ANL module profiling"
chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)"
mode,s,h,"hl",,,""
-> stdout output from hxdgrade
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDeventFitsRead version 2.0.3
HXDleapsecInit version 2.0.1
HXDgrade version 2.0.4
HXD2ndeventFitsWrite version 2.0.4
-- Functions by HXD team --
hxdeventFitsUtil version 2.0.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdeventFitsToBnkUtil version 2.0.0
hxdcaldbUtil version 0.7.1
hxdgradeUtil version 2.0.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDeventFitsRead version 2.0.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgradeFITS version 2.0.4
[ 4] HXDgrade version 2.0.3
[ 5] HXD2ndeventFitsWrite version 2.0.4
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
Event... 400001 (400000)
Event... 500001 (500000)
Event... 600001 (600000)
Event... 700001 (700000)
Event... 800001 (800000)
Event... 900001 (900000)
Event... 1000001 (1000000)
Event... 1100001 (1100000)
Event... 1200001 (1200000)
Event... 1300001 (1300000)
Event... 1400001 (1400000)
Event... 1500001 (1500000)
Event... 1600001 (1600000)
Event... 1700001 (1700000)
Event... 1800001 (1800000)
Event... 1900001 (1900000)
Event... 2000001 (2000000)
Event... 2100001 (2100000)
Event... 2200001 (2200000)
Event... 2300001 (2300000)
Event... 2400001 (2400000)
Event... 2500001 (2500000)
Event... 2600001 (2600000)
Event... 2700001 (2700000)
Event... 2800001 (2800000)
Event... 2900001 (2900000)
Event... 3000001 (3000000)
Event... 3100001 (3100000)
Event... 3200001 (3200000)
Event... 3300001 (3300000)
Event... 3400001 (3400000)
Event... 3500001 (3500000)
Event... 3600001 (3600000)
Event... 3700001 (3700000)
Event... 3800001 (3800000)
Event... 3900001 (3900000)
Event... 4000001 (4000000)
Event... 4100001 (4100000)
Event... 4200001 (4200000)
Event... 4300001 (4300000)
Event... 4400001 (4400000)
Event... 4500001 (4500000)
Event... 4600001 (4600000)
Event... 4700001 (4700000)
Event... 4800001 (4800000)
Event... 4900001 (4900000)
Event... 5000001 (5000000)
Event... 5100001 (5100000)
Event... 5200001 (5200000)
Event... 5300001 (5300000)
Event... 5400001 (5400000)
Event... 5500001 (5500000)
Event... 5600001 (5600000)
Event... 5700001 (5700000)
Event... 5800001 (5800000)
Event... 5900001 (5900000)
Event... 6000001 (6000000)
Event... 6100001 (6100000)
Event... 6200001 (6200000)
Event... 6300001 (6300000)
Event... 6400001 (6400000)
Event... 6500001 (6500000)
Event... 6600001 (6600000)
Event... 6700001 (6700000)
Event... 6800001 (6800000)
Event... 6900001 (6900000)
Event... 7000001 (7000000)
Event... 7100001 (7100000)
Event... 7200001 (7200000)
Event... 7300001 (7300000)
Event... 7400001 (7400000)
Event... 7500001 (7500000)
Event... 7600001 (7600000)
Event... 7700001 (7700000)
Event... 7800001 (7800000)
Event... 7900001 (7900000)
Event... 8000001 (8000000)
Event... 8100001 (8100000)
Event... 8200001 (8200000)
Event... 8300001 (8300000)
Event... 8400001 (8400000)
Event... 8500001 (8500000)
Event... 8600001 (8600000)
Event... 8700001 (8700000)
Event... 8800001 (8800000)
Event... 8900001 (8900000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 8949117
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 8949116/8949117
[ 2] HXDleapsecInit version 2.0.1
| OK: 8949116/8949116
[ 3] HXDgradeFITS version 2.0.4
| OK: 8949116/8949116
[ 4] HXDgrade version 2.0.3
| OK: 8949116/8949116
[ 5] HXD2ndeventFitsWrite version 2.0.4
| OK: 8949116/8949116
GET: 8949116
*** 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 8949116 0 SINGLE
HXD:WEL:EV_TIME 8 8 8949116 8949116 SINGLE
HXD:WEL:MTI 4 4 8949116 8949116 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 17898232 8949116 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 17898232 8949116 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 17898232 8949116 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 17898232 8949116 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 17898232 8949116 SINGLE
HXD:WEL:GRADE_RESERV 4 4 17898232 8949116 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 17898232 8949116 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 17898232 8949116 SINGLE
HXD:WEL:DET_TYPE 4 4 17898232 8949116 SINGLE
HXD:WEL:PI_FAST 4 4 8949116 8949116 SINGLE
HXD:WEL:PI_SLOW 4 4 8949116 8949116 SINGLE
HXD:WEL:PI_PIN 16 16 8949116 8949116 SINGLE
HXD:WEL:UPI_FAST 8 8 8949116 8949116 SINGLE
HXD:WEL:UPI_SLOW 8 8 8949116 8949116 SINGLE
HXD:WEL:UPI_PIN 32 32 8949116 8949116 SINGLE
HXD:WEL:PIN_ID 4 4 17898232 8949116 SINGLE
HXD:WEL:UNITID 4 4 8949116 8949116 SINGLE
HXD:WEL:LENGTH_CHK 4 4 8949116 8949116 SINGLE
HXD:WEL:WELTIME 4 4 8949116 8949116 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 8949116 8949116 SINGLE
HXD:WEL:TRIG 4 4 8949116 8949116 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 8949116 8949116 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 8949116 8949116 SINGLE
HXD:WEL:PHA_FAST 4 4 8949116 8949116 SINGLE
HXD:WEL:PHA_SLOW 4 4 8949116 8949116 SINGLE
HXD:WEL:PHA_PIN 16 16 8949116 8949116 SINGLE
HXD:WEL:PACKET_AETIME 8 8 8949116 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 8949116 8949116 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 8949116 8949116 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 8949116 8949116 SINGLE
HXD:WEL:EVENT 204 204 8949116 8949116 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 196.734 6.998 203.732 44.05
[ 2] HXDleapsecInit 2.443 5.433 7.876 1.70
[ 3] HXDgradeFITS 1.678 4.863 6.541 1.41
[ 4] HXDgrade 19.537 4.778 24.315 5.26
[ 5] HXD2ndeventFitsWrite 192.389 27.646 220.035 47.57
(others) 0.018 0.004 0.022 0.00
--------------------------------------------------------------------------
TOTAL 412.798 49.722 462.521 100.00
-> hxdgrade successful for ae703029010hxd_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,"ae703029010hxd_0_proc.hk",,,"HXD scl fits file name ?" hklist_name,f,a,"ae703029010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae703029010.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 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae703029010hxd_0.hk'
Event... 100001 (100000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 166289
QUIT: 1 |
<--- [ 1] HXDsclFitsRead version 0.4.7
| OK: 166288/166289
[ 2] HXDgethkInit version 0.1.0
| OK: 166288/166288
[ 3] HXDleapsecInit version 2.0.1
| OK: 166288/166288
[ 4] HXDfsclTimeFITS version 0.3.6
| OK: 166288/166288
[ 5] HXDfsclTime version 0.3.8
| OK: 166288/166288
[ 6] HXD2ndsclFitsWrite version 0.2.1
| OK: 166288/166288
GET: 166288
*** 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 166288 0 SINGLE
HXD:SCL:PACKET_S_TIME 8 8 166288 332572 SINGLE
HXD:SCL:PACKET_SEC_HEADER 4 4 166288 166284 SINGLE
HXD:SCL:EV_TIME 8 8 166288 166288 SINGLE
HXD:SCL:TIME 4 4 166288 166284 SINGLE
HXD:SCL:BOARD 4 4 166288 166284 SINGLE
HXDsclFitsRead:IROW 4 4 166288 166288 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 207862 332576 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 20785 20785 SINGLE
HXDfsclTime:HXD_AE_TM_LATCH_TM 4 4 20785 20785 SINGLE
HXDfsclTime:HXD_SYS_TIME 8 8 20785 0 SINGLE
HXDfsclTime:HXD_HK_TIME 8 8 20785 0 SINGLE
HXDfsclTime:HXD_WPU_CLK_RATE 4 4 20785 20785 SINGLE
HXDfsclTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfsclTime:TIME_INVALID 4 4 166288 0 SINGLE
HXDfsclTime:EV_TIME_TLM 8 8 166284 0 SINGLE
HXDfsclTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDsclFitsRead 0.653 0.194 0.847 38.14
[ 2] HXDgethkInit 0.042 0.092 0.134 6.03
[ 3] HXDleapsecInit 0.034 0.085 0.119 5.36
[ 4] HXDfsclTimeFITS 0.158 0.137 0.295 13.28
[ 5] HXDfsclTime 0.447 0.100 0.547 24.63
[ 6] HXD2ndsclFitsWrite 0.159 0.101 0.260 11.71
(others) 0.011 0.008 0.019 0.86
--------------------------------------------------------------------------
TOTAL 1.504 0.717 2.221 100.00
-> hxdscltime successful for ae703029010hxd_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,"ae703029010hxd_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,"ae703029010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae703029010.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 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae703029010hxd_0.hk'
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 385105
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 385104/385105
[ 2] HXDgethkInit version 0.1.0
| OK: 385104/385104
[ 3] HXDleapsecInit version 2.0.1
| OK: 385104/385104
[ 4] HXDftrnTimeFITS version 0.3.3
| OK: 385104/385104
[ 5] HXDftrnTime version 0.3.3
| OK: 385104/385104
[ 6] HXD2ndtrnFitsWrite version 0.3.1
| OK: 385104/385104
GET: 385104
*** 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 770208 385104 SINGLE
HXD:TRN:PACKET_AETIME 8 8 385104 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 385104 1155232 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 385104 770168 SINGLE
HXD:TRB:IBLOCK 4 4 385104 770168 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 385104 385104 SINGLE
HXD:TRN:BOARD 4 4 385104 770168 SINGLE
HXD:TRN:BLOCK 4 4 385104 770168 SINGLE
HXD:TRN:RDBIN 4 4 385104 385104 SINGLE
HXD:TRN:TBLID 4 4 385104 385104 SINGLE
HXD:TRN:DATA_SIZE 4 4 385104 385104 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 385104 385104 SINGLE
HXD:TRH:BLOCK 4 4 385104 385104 SINGLE
HXD:TRH:TIME 4 4 385104 770168 SINGLE
HXD:TRH:GB_TIME 4 4 385104 385104 SINGLE
HXD:TRH:GB_FLG 4 4 385104 385104 SINGLE
HXD:TRH:TIME_MODE 4 4 385104 770168 SINGLE
HXD:TRH:RBM 4 4 385104 385104 SINGLE
HXD:TRH:GB_FRZ 4 4 385104 385104 SINGLE
HXD:TRH:DT_MODE 4 4 385104 385104 SINGLE
HXD:TRH:SUMLD_MODE 4 4 385104 385104 SINGLE
HXD:TRH:BOARD 4 4 385104 385104 SINGLE
HXD:TRH:GB_TRG 4 4 385104 385104 SINGLE
HXD:TRB:PI 216 216 385104 385104 SINGLE
HXD:TRB:PH 216 216 385104 385104 SINGLE
HXD:TRB:OVER_FLOW 4 4 385104 385104 SINGLE
HXD:TRB:PSEUDO 4 4 385104 385104 SINGLE
HXD:TRB:TRN_ANT 20 20 385104 385104 SINGLE
HXD:TRB:UD 4 4 385104 385104 SINGLE
HXD:TRB:DEAD_TIME 4 4 385104 385104 SINGLE
HXD:TRB:SUM_LD 4 4 385104 385104 SINGLE
HXD:TRB:WELL_ANT 16 16 385104 385104 SINGLE
HXD:TRN:TRN_QUALITY 4 4 385104 385104 SINGLE
HXDtrnFitsRead:IROW 4 4 385104 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 407294 1155312 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 11075 11075 SINGLE
HXDftrnTime:HXD_AE_TM_LATCH_TM 4 4 11075 11075 SINGLE
HXDftrnTime:HXD_SYS_TIME 8 8 11075 0 SINGLE
HXDftrnTime:HXD_HK_TIME 8 8 11075 0 SINGLE
HXDftrnTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDftrnTime:TIME_INVALID 4 4 385104 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 8.673 0.893 9.566 41.09
[ 2] HXDgethkInit 0.108 0.240 0.348 1.49
[ 3] HXDleapsecInit 0.088 0.232 0.320 1.37
[ 4] HXDftrnTimeFITS 0.282 0.669 0.951 4.08
[ 5] HXDftrnTime 1.132 0.248 1.380 5.93
[ 6] HXD2ndtrnFitsWrite 8.641 2.056 10.696 45.94
(others) 0.014 0.007 0.021 0.09
--------------------------------------------------------------------------
TOTAL 18.937 4.344 23.281 100.00
-> hxdwamtime successful for ae703029010hxd_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,"ae703029010hxd_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,"ae703029010hxd_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: 385105
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 385104/385105
[ 2] HXDleapsecInit version 2.0.1
| OK: 385104/385104
[ 3] HXDmktrngainhist version 0.1.2
| OK: 385104/385104
GET: 385104
*** 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 385104 385104 SINGLE
HXD:TRN:PACKET_AETIME 8 8 385104 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 385104 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 385104 0 SINGLE
HXD:TRB:IBLOCK 4 4 385104 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 385104 0 SINGLE
HXD:TRN:BOARD 4 4 385104 0 SINGLE
HXD:TRN:BLOCK 4 4 385104 0 SINGLE
HXD:TRN:RDBIN 4 4 385104 0 SINGLE
HXD:TRN:TBLID 4 4 385104 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 385104 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 385104 0 SINGLE
HXD:TRH:BLOCK 4 4 385104 0 SINGLE
HXD:TRH:TIME 4 4 385104 0 SINGLE
HXD:TRH:GB_TIME 4 4 385104 0 SINGLE
HXD:TRH:GB_FLG 4 4 385104 0 SINGLE
HXD:TRH:TIME_MODE 4 4 385104 0 SINGLE
HXD:TRH:RBM 4 4 385104 0 SINGLE
HXD:TRH:GB_FRZ 4 4 385104 0 SINGLE
HXD:TRH:DT_MODE 4 4 385104 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 385104 0 SINGLE
HXD:TRH:BOARD 4 4 385104 0 SINGLE
HXD:TRH:GB_TRG 4 4 385104 0 SINGLE
HXD:TRB:PI 216 216 385104 0 SINGLE
HXD:TRB:PH 216 216 385104 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 385104 0 SINGLE
HXD:TRB:PSEUDO 4 4 385104 0 SINGLE
HXD:TRB:TRN_ANT 20 20 385104 0 SINGLE
HXD:TRB:UD 4 4 385104 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 385104 0 SINGLE
HXD:TRB:SUM_LD 4 4 385104 0 SINGLE
HXD:TRB:WELL_ANT 16 16 385104 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 385104 0 SINGLE
HXDtrnFitsRead:IROW 4 4 385104 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 385104 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.188 0.279 8.467 92.62
[ 2] HXDleapsecInit 0.099 0.196 0.295 3.23
[ 3] HXDmktrngainhist 0.161 0.199 0.360 3.94
(others) 0.014 0.006 0.020 0.22
--------------------------------------------------------------------------
TOTAL 8.462 0.680 9.142 100.00
-> hxdmkwamgainhist successful for ae703029010hxd_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,"ae703029010hxd_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,"ae703029010hxd_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,"ae703029010hxd_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: 385105
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 385104/385105
[ 2] HXDgethkInit version 0.1.0
| OK: 385104/385104
[ 3] HXDtrnpi version 2.0.0
| OK: 385104/385104
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 385104/385104
GET: 385104
*** 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 385104 770208 SINGLE
HXD:TRN:PACKET_AETIME 8 8 385104 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 385104 385104 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 385104 385104 SINGLE
HXD:TRB:IBLOCK 4 4 385104 385104 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 385104 385104 SINGLE
HXD:TRN:BOARD 4 4 385104 385104 SINGLE
HXD:TRN:BLOCK 4 4 385104 385104 SINGLE
HXD:TRN:RDBIN 4 4 385104 770208 SINGLE
HXD:TRN:TBLID 4 4 385104 385104 SINGLE
HXD:TRN:DATA_SIZE 4 4 385104 385104 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 385104 385104 SINGLE
HXD:TRH:BLOCK 4 4 385104 385104 SINGLE
HXD:TRH:TIME 4 4 385104 385104 SINGLE
HXD:TRH:GB_TIME 4 4 385104 385104 SINGLE
HXD:TRH:GB_FLG 4 4 385104 385104 SINGLE
HXD:TRH:TIME_MODE 4 4 385104 385104 SINGLE
HXD:TRH:RBM 4 4 385104 385104 SINGLE
HXD:TRH:GB_FRZ 4 4 385104 385104 SINGLE
HXD:TRH:DT_MODE 4 4 385104 385104 SINGLE
HXD:TRH:SUMLD_MODE 4 4 385104 385104 SINGLE
HXD:TRH:BOARD 4 4 385104 770208 SINGLE
HXD:TRH:GB_TRG 4 4 385104 385104 SINGLE
HXD:TRB:PI 216 216 770208 385104 SINGLE
HXD:TRB:PH 216 216 385104 770208 SINGLE
HXD:TRB:OVER_FLOW 4 4 385104 385104 SINGLE
HXD:TRB:PSEUDO 4 4 385104 385104 SINGLE
HXD:TRB:TRN_ANT 20 20 385104 385104 SINGLE
HXD:TRB:UD 4 4 385104 385104 SINGLE
HXD:TRB:DEAD_TIME 4 4 385104 385104 SINGLE
HXD:TRB:SUM_LD 4 4 385104 385104 SINGLE
HXD:TRB:WELL_ANT 16 16 385104 385104 SINGLE
HXD:TRN:TRN_QUALITY 4 4 385104 385104 SINGLE
HXDtrnFitsRead:IROW 4 4 385104 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 385104 385104 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.502 1.002 9.504 45.04
[ 2] HXDgethkInit 0.115 0.258 0.373 1.77
[ 3] HXDtrnpi 0.371 0.205 0.576 2.73
[ 4] HXD2ndtrnFitsWrite 8.833 1.793 10.625 50.36
(others) 0.014 0.008 0.022 0.10
--------------------------------------------------------------------------
TOTAL 17.834 3.266 21.100 100.00
-> hxdwampi successful for ae703029010hxd_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,"ae703029010hxd_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,"ae703029010hxd_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: 385105
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 385104/385105
[ 2] HXDgethkInit version 0.1.0
| OK: 385104/385104
[ 3] HXDtrngrade version 0.1.0
| OK: 385104/385104
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 385104/385104
GET: 385104
*** 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 385104 385104 SINGLE
HXD:TRN:PACKET_AETIME 8 8 385104 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 385104 385104 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 385104 385104 SINGLE
HXD:TRB:IBLOCK 4 4 385104 385104 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 385104 385104 SINGLE
HXD:TRN:BOARD 4 4 385104 385104 SINGLE
HXD:TRN:BLOCK 4 4 385104 385104 SINGLE
HXD:TRN:RDBIN 4 4 385104 385104 SINGLE
HXD:TRN:TBLID 4 4 385104 385104 SINGLE
HXD:TRN:DATA_SIZE 4 4 385104 385104 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 385104 385104 SINGLE
HXD:TRH:BLOCK 4 4 385104 385104 SINGLE
HXD:TRH:TIME 4 4 385104 385104 SINGLE
HXD:TRH:GB_TIME 4 4 385104 385104 SINGLE
HXD:TRH:GB_FLG 4 4 385104 385104 SINGLE
HXD:TRH:TIME_MODE 4 4 385104 385104 SINGLE
HXD:TRH:RBM 4 4 385104 385104 SINGLE
HXD:TRH:GB_FRZ 4 4 385104 385104 SINGLE
HXD:TRH:DT_MODE 4 4 385104 385104 SINGLE
HXD:TRH:SUMLD_MODE 4 4 385104 385104 SINGLE
HXD:TRH:BOARD 4 4 385104 385104 SINGLE
HXD:TRH:GB_TRG 4 4 385104 385104 SINGLE
HXD:TRB:PI 216 216 385104 385104 SINGLE
HXD:TRB:PH 216 216 385104 385104 SINGLE
HXD:TRB:OVER_FLOW 4 4 385104 385104 SINGLE
HXD:TRB:PSEUDO 4 4 385104 385104 SINGLE
HXD:TRB:TRN_ANT 20 20 385104 385104 SINGLE
HXD:TRB:UD 4 4 385104 385104 SINGLE
HXD:TRB:DEAD_TIME 4 4 385104 385104 SINGLE
HXD:TRB:SUM_LD 4 4 385104 385104 SINGLE
HXD:TRB:WELL_ANT 16 16 385104 385104 SINGLE
HXD:TRN:TRN_QUALITY 4 4 770208 385104 SINGLE
HXDtrnFitsRead:IROW 4 4 385104 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 385104 385104 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.660 0.798 9.458 44.86
[ 2] HXDgethkInit 0.139 0.186 0.325 1.54
[ 3] HXDtrngrade 0.147 0.185 0.332 1.57
[ 4] HXD2ndtrnFitsWrite 9.078 1.867 10.944 51.91
(others) 0.014 0.009 0.023 0.11
--------------------------------------------------------------------------
TOTAL 18.037 3.045 21.082 100.00
-> hxdwamgrade successful for ae703029010hxd_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,"ae703029010hxd_1_wam.sff",,,"HXD wam fits file name ?" create_name,f,h,"none",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae703029010hxd_0.hk",,,"HXD HK fits file list name ?" create_bstidt_name,f,a,"ae703029010hxd_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: 385105
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 385104/385105
[ 2] HXDleapsecInit version 2.0.1
| OK: 385104/385104
[ 3] HXDgethkInit version 0.1.0
| OK: 385104/385104
[ 4] HXDwambstid version 0.0.2
| OK: 385104/385104
GET: 385104
*** 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 385104 0 SINGLE
HXD:TRN:PACKET_AETIME 8 8 385104 385056 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 385104 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 385104 385056 SINGLE
HXD:TRB:IBLOCK 4 4 385104 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 385104 0 SINGLE
HXD:TRN:BOARD 4 4 385104 0 SINGLE
HXD:TRN:BLOCK 4 4 385104 0 SINGLE
HXD:TRN:RDBIN 4 4 385104 0 SINGLE
HXD:TRN:TBLID 4 4 385104 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 385104 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 385104 0 SINGLE
HXD:TRH:BLOCK 4 4 385104 0 SINGLE
HXD:TRH:TIME 4 4 385104 0 SINGLE
HXD:TRH:GB_TIME 4 4 385104 0 SINGLE
HXD:TRH:GB_FLG 4 4 385104 0 SINGLE
HXD:TRH:TIME_MODE 4 4 385104 385056 SINGLE
HXD:TRH:RBM 4 4 385104 0 SINGLE
HXD:TRH:GB_FRZ 4 4 385104 385056 SINGLE
HXD:TRH:DT_MODE 4 4 385104 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 385104 0 SINGLE
HXD:TRH:BOARD 4 4 385104 385056 SINGLE
HXD:TRH:GB_TRG 4 4 385104 0 SINGLE
HXD:TRB:PI 216 216 385104 0 SINGLE
HXD:TRB:PH 216 216 385104 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 385104 0 SINGLE
HXD:TRB:PSEUDO 4 4 385104 0 SINGLE
HXD:TRB:TRN_ANT 20 20 385104 0 SINGLE
HXD:TRB:UD 4 4 385104 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 385104 0 SINGLE
HXD:TRB:SUM_LD 4 4 385104 0 SINGLE
HXD:TRB:WELL_ANT 16 16 385104 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 385104 0 SINGLE
HXDtrnFitsRead:IROW 4 4 385104 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 385104 385104 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.235 0.350 8.585 89.08
[ 2] HXDleapsecInit 0.108 0.230 0.338 3.51
[ 3] HXDgethkInit 0.101 0.173 0.274 2.84
[ 4] HXDwambstid 0.251 0.167 0.418 4.34
(others) 0.013 0.009 0.022 0.23
--------------------------------------------------------------------------
TOTAL 8.708 0.929 9.637 100.00
-> hxdwambstid successful for ae703029010hxd_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,"ae703029010hxd_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,"ae703029010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae703029010.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 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae703029010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae703029010hxd_0.hk'
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 349841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 349840/349841
[ 2] HXDgethkInit version 0.1.0
| OK: 349840/349840
[ 3] HXDleapsecInit version 2.0.1
| OK: 349840/349840
[ 4] HXDftrnTimeFITS version 0.3.3
| OK: 349840/349840
[ 5] HXDftrnTime version 0.3.3
| OK: 349840/349840
[ 6] HXD2ndtrnFitsWrite version 0.3.1
| OK: 349840/349840
GET: 349840
*** 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 699680 349840 SINGLE
HXD:TRN:PACKET_AETIME 8 8 349840 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 349840 1049472 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 349840 699656 SINGLE
HXD:TRB:IBLOCK 4 4 349840 699656 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 349840 349840 SINGLE
HXD:TRN:BOARD 4 4 349840 699656 SINGLE
HXD:TRN:BLOCK 4 4 349840 699656 SINGLE
HXD:TRN:RDBIN 4 4 349840 349840 SINGLE
HXD:TRN:TBLID 4 4 349840 349840 SINGLE
HXD:TRN:DATA_SIZE 4 4 349840 349840 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 349840 349840 SINGLE
HXD:TRH:BLOCK 4 4 349840 349840 SINGLE
HXD:TRH:TIME 4 4 349840 699656 SINGLE
HXD:TRH:GB_TIME 4 4 349840 349840 SINGLE
HXD:TRH:GB_FLG 4 4 349840 349840 SINGLE
HXD:TRH:TIME_MODE 4 4 349840 699656 SINGLE
HXD:TRH:RBM 4 4 349840 349840 SINGLE
HXD:TRH:GB_FRZ 4 4 349840 349840 SINGLE
HXD:TRH:DT_MODE 4 4 349840 349840 SINGLE
HXD:TRH:SUMLD_MODE 4 4 349840 349840 SINGLE
HXD:TRH:BOARD 4 4 349840 349840 SINGLE
HXD:TRH:GB_TRG 4 4 349840 349840 SINGLE
HXD:TRB:PI 216 216 349840 349840 SINGLE
HXD:TRB:PH 216 216 349840 349840 SINGLE
HXD:TRB:OVER_FLOW 4 4 349840 349840 SINGLE
HXD:TRB:PSEUDO 4 4 349840 349840 SINGLE
HXD:TRB:TRN_ANT 20 20 349840 349840 SINGLE
HXD:TRB:UD 4 4 349840 349840 SINGLE
HXD:TRB:DEAD_TIME 4 4 349840 349840 SINGLE
HXD:TRB:SUM_LD 4 4 349840 349840 SINGLE
HXD:TRB:WELL_ANT 16 16 349840 349840 SINGLE
HXD:TRN:TRN_QUALITY 4 4 349840 349840 SINGLE
HXDtrnFitsRead:IROW 4 4 349840 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 369282 1049520 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 9709 9709 SINGLE
HXDftrnTime:HXD_AE_TM_LATCH_TM 4 4 9709 9709 SINGLE
HXDftrnTime:HXD_SYS_TIME 8 8 9709 0 SINGLE
HXDftrnTime:HXD_HK_TIME 8 8 9709 0 SINGLE
HXDftrnTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDftrnTime:TIME_INVALID 4 4 349840 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 7.772 0.856 8.628 40.78
[ 2] HXDgethkInit 0.106 0.237 0.343 1.62
[ 3] HXDleapsecInit 0.061 0.215 0.276 1.30
[ 4] HXDftrnTimeFITS 0.236 0.595 0.831 3.93
[ 5] HXDftrnTime 1.128 0.205 1.333 6.30
[ 6] HXD2ndtrnFitsWrite 7.869 1.853 9.722 45.95
(others) 0.017 0.006 0.023 0.11
--------------------------------------------------------------------------
TOTAL 17.188 3.966 21.155 100.00
-> hxdwamtime successful for ae703029010hxd_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,"ae703029010hxd_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,"ae703029010hxd_2_wam.ghf",,,"HXD WAM gainhistory fits file name" gainhistory_iomode,b,h,n,,,"Add result to gainhistory : yes or no ?" leapfile,f,a,"CALDB",,,"leapsec file name" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkwamgainhist
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDmktrngainhist version 0.1.2
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdtrnFitsToBnkUtil version 0.2.1
hxdFitsHeaderUtil version 2.0.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmktrngainhist version 0.1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 349841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 349840/349841
[ 2] HXDleapsecInit version 2.0.1
| OK: 349840/349840
[ 3] HXDmktrngainhist version 0.1.2
| OK: 349840/349840
GET: 349840
*** 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 349840 349840 SINGLE
HXD:TRN:PACKET_AETIME 8 8 349840 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 349840 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 349840 0 SINGLE
HXD:TRB:IBLOCK 4 4 349840 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 349840 0 SINGLE
HXD:TRN:BOARD 4 4 349840 0 SINGLE
HXD:TRN:BLOCK 4 4 349840 0 SINGLE
HXD:TRN:RDBIN 4 4 349840 0 SINGLE
HXD:TRN:TBLID 4 4 349840 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 349840 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 349840 0 SINGLE
HXD:TRH:BLOCK 4 4 349840 0 SINGLE
HXD:TRH:TIME 4 4 349840 0 SINGLE
HXD:TRH:GB_TIME 4 4 349840 0 SINGLE
HXD:TRH:GB_FLG 4 4 349840 0 SINGLE
HXD:TRH:TIME_MODE 4 4 349840 0 SINGLE
HXD:TRH:RBM 4 4 349840 0 SINGLE
HXD:TRH:GB_FRZ 4 4 349840 0 SINGLE
HXD:TRH:DT_MODE 4 4 349840 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 349840 0 SINGLE
HXD:TRH:BOARD 4 4 349840 0 SINGLE
HXD:TRH:GB_TRG 4 4 349840 0 SINGLE
HXD:TRB:PI 216 216 349840 0 SINGLE
HXD:TRB:PH 216 216 349840 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 349840 0 SINGLE
HXD:TRB:PSEUDO 4 4 349840 0 SINGLE
HXD:TRB:TRN_ANT 20 20 349840 0 SINGLE
HXD:TRB:UD 4 4 349840 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 349840 0 SINGLE
HXD:TRB:SUM_LD 4 4 349840 0 SINGLE
HXD:TRB:WELL_ANT 16 16 349840 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 349840 0 SINGLE
HXDtrnFitsRead:IROW 4 4 349840 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 349840 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 7.330 0.253 7.583 93.02
[ 2] HXDleapsecInit 0.105 0.153 0.258 3.16
[ 3] HXDmktrngainhist 0.130 0.161 0.291 3.57
(others) 0.014 0.006 0.020 0.25
--------------------------------------------------------------------------
TOTAL 7.579 0.573 8.152 100.00
-> hxdmkwamgainhist successful for ae703029010hxd_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,"ae703029010hxd_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,"ae703029010hxd_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,"ae703029010hxd_2_wam.ghf",,,"HXD TRN gain history fie name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwampi
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.1
HXDtrnFitsRead version 0.4.2
HXDgethkInit version 0.1.0
HXDrndInit version 0.2.0
HXDtrnpi version 2.0.0
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdtrnpiUtil version 0.0.4
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDtrnpi version 2.0.0
[ 4] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 349841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 349840/349841
[ 2] HXDgethkInit version 0.1.0
| OK: 349840/349840
[ 3] HXDtrnpi version 2.0.0
| OK: 349840/349840
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 349840/349840
GET: 349840
*** 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 349840 699680 SINGLE
HXD:TRN:PACKET_AETIME 8 8 349840 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 349840 349840 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 349840 349840 SINGLE
HXD:TRB:IBLOCK 4 4 349840 349840 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 349840 349840 SINGLE
HXD:TRN:BOARD 4 4 349840 349840 SINGLE
HXD:TRN:BLOCK 4 4 349840 349840 SINGLE
HXD:TRN:RDBIN 4 4 349840 699680 SINGLE
HXD:TRN:TBLID 4 4 349840 349840 SINGLE
HXD:TRN:DATA_SIZE 4 4 349840 349840 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 349840 349840 SINGLE
HXD:TRH:BLOCK 4 4 349840 349840 SINGLE
HXD:TRH:TIME 4 4 349840 349840 SINGLE
HXD:TRH:GB_TIME 4 4 349840 349840 SINGLE
HXD:TRH:GB_FLG 4 4 349840 349840 SINGLE
HXD:TRH:TIME_MODE 4 4 349840 349840 SINGLE
HXD:TRH:RBM 4 4 349840 349840 SINGLE
HXD:TRH:GB_FRZ 4 4 349840 349840 SINGLE
HXD:TRH:DT_MODE 4 4 349840 349840 SINGLE
HXD:TRH:SUMLD_MODE 4 4 349840 349840 SINGLE
HXD:TRH:BOARD 4 4 349840 699680 SINGLE
HXD:TRH:GB_TRG 4 4 349840 349840 SINGLE
HXD:TRB:PI 216 216 699680 349840 SINGLE
HXD:TRB:PH 216 216 349840 699680 SINGLE
HXD:TRB:OVER_FLOW 4 4 349840 349840 SINGLE
HXD:TRB:PSEUDO 4 4 349840 349840 SINGLE
HXD:TRB:TRN_ANT 20 20 349840 349840 SINGLE
HXD:TRB:UD 4 4 349840 349840 SINGLE
HXD:TRB:DEAD_TIME 4 4 349840 349840 SINGLE
HXD:TRB:SUM_LD 4 4 349840 349840 SINGLE
HXD:TRB:WELL_ANT 16 16 349840 349840 SINGLE
HXD:TRN:TRN_QUALITY 4 4 349840 349840 SINGLE
HXDtrnFitsRead:IROW 4 4 349840 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 349840 349840 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 7.698 0.880 8.578 44.94
[ 2] HXDgethkInit 0.118 0.240 0.358 1.88
[ 3] HXDtrnpi 0.348 0.163 0.511 2.68
[ 4] HXD2ndtrnFitsWrite 8.073 1.545 9.618 50.39
(others) 0.015 0.007 0.022 0.12
--------------------------------------------------------------------------
TOTAL 16.252 2.835 19.086 100.00
-> hxdwampi successful for ae703029010hxd_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,"ae703029010hxd_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,"ae703029010hxd_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: 349841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 349840/349841
[ 2] HXDgethkInit version 0.1.0
| OK: 349840/349840
[ 3] HXDtrngrade version 0.1.0
| OK: 349840/349840
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 349840/349840
GET: 349840
*** 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 349840 349840 SINGLE
HXD:TRN:PACKET_AETIME 8 8 349840 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 349840 349840 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 349840 349840 SINGLE
HXD:TRB:IBLOCK 4 4 349840 349840 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 349840 349840 SINGLE
HXD:TRN:BOARD 4 4 349840 349840 SINGLE
HXD:TRN:BLOCK 4 4 349840 349840 SINGLE
HXD:TRN:RDBIN 4 4 349840 349840 SINGLE
HXD:TRN:TBLID 4 4 349840 349840 SINGLE
HXD:TRN:DATA_SIZE 4 4 349840 349840 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 349840 349840 SINGLE
HXD:TRH:BLOCK 4 4 349840 349840 SINGLE
HXD:TRH:TIME 4 4 349840 349840 SINGLE
HXD:TRH:GB_TIME 4 4 349840 349840 SINGLE
HXD:TRH:GB_FLG 4 4 349840 349840 SINGLE
HXD:TRH:TIME_MODE 4 4 349840 349840 SINGLE
HXD:TRH:RBM 4 4 349840 349840 SINGLE
HXD:TRH:GB_FRZ 4 4 349840 349840 SINGLE
HXD:TRH:DT_MODE 4 4 349840 349840 SINGLE
HXD:TRH:SUMLD_MODE 4 4 349840 349840 SINGLE
HXD:TRH:BOARD 4 4 349840 349840 SINGLE
HXD:TRH:GB_TRG 4 4 349840 349840 SINGLE
HXD:TRB:PI 216 216 349840 349840 SINGLE
HXD:TRB:PH 216 216 349840 349840 SINGLE
HXD:TRB:OVER_FLOW 4 4 349840 349840 SINGLE
HXD:TRB:PSEUDO 4 4 349840 349840 SINGLE
HXD:TRB:TRN_ANT 20 20 349840 349840 SINGLE
HXD:TRB:UD 4 4 349840 349840 SINGLE
HXD:TRB:DEAD_TIME 4 4 349840 349840 SINGLE
HXD:TRB:SUM_LD 4 4 349840 349840 SINGLE
HXD:TRB:WELL_ANT 16 16 349840 349840 SINGLE
HXD:TRN:TRN_QUALITY 4 4 699680 349840 SINGLE
HXDtrnFitsRead:IROW 4 4 349840 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 349840 349840 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 7.866 0.778 8.644 45.31
[ 2] HXDgethkInit 0.124 0.225 0.349 1.83
[ 3] HXDtrngrade 0.120 0.193 0.313 1.64
[ 4] HXD2ndtrnFitsWrite 8.053 1.697 9.750 51.11
(others) 0.013 0.008 0.021 0.11
--------------------------------------------------------------------------
TOTAL 16.176 2.901 19.076 100.00
-> hxdwamgrade successful for ae703029010hxd_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,"ae703029010hxd_2_wam.sff",,,"HXD wam fits file name ?" create_name,f,h,"none",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae703029010hxd_0.hk",,,"HXD HK fits file list name ?" create_bstidt_name,f,a,"ae703029010hxd_2_bstidt.fits",,,"HXD BST-ID-TABLE (bstidt) FITS name ?" leapfile,f,a,"AUTO",,,"leapsec file name" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwambstid
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDgethkInit version 0.1.0
HXDwambstid version 0.0.2
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
hxdcaldbUtil version 0.7.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDgethkInit version 0.1.0
[ 4] HXDwambstid version 0.0.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
Event... 300001 (300000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 349841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 349840/349841
[ 2] HXDleapsecInit version 2.0.1
| OK: 349840/349840
[ 3] HXDgethkInit version 0.1.0
| OK: 349840/349840
[ 4] HXDwambstid version 0.0.2
| OK: 349840/349840
GET: 349840
*** 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 349840 0 SINGLE
HXD:TRN:PACKET_AETIME 8 8 349840 349816 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 349840 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 349840 349816 SINGLE
HXD:TRB:IBLOCK 4 4 349840 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 349840 0 SINGLE
HXD:TRN:BOARD 4 4 349840 0 SINGLE
HXD:TRN:BLOCK 4 4 349840 0 SINGLE
HXD:TRN:RDBIN 4 4 349840 0 SINGLE
HXD:TRN:TBLID 4 4 349840 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 349840 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 349840 0 SINGLE
HXD:TRH:BLOCK 4 4 349840 0 SINGLE
HXD:TRH:TIME 4 4 349840 0 SINGLE
HXD:TRH:GB_TIME 4 4 349840 0 SINGLE
HXD:TRH:GB_FLG 4 4 349840 0 SINGLE
HXD:TRH:TIME_MODE 4 4 349840 349816 SINGLE
HXD:TRH:RBM 4 4 349840 0 SINGLE
HXD:TRH:GB_FRZ 4 4 349840 349816 SINGLE
HXD:TRH:DT_MODE 4 4 349840 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 349840 0 SINGLE
HXD:TRH:BOARD 4 4 349840 349816 SINGLE
HXD:TRH:GB_TRG 4 4 349840 0 SINGLE
HXD:TRB:PI 216 216 349840 0 SINGLE
HXD:TRB:PH 216 216 349840 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 349840 0 SINGLE
HXD:TRB:PSEUDO 4 4 349840 0 SINGLE
HXD:TRB:TRN_ANT 20 20 349840 0 SINGLE
HXD:TRB:UD 4 4 349840 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 349840 0 SINGLE
HXD:TRB:SUM_LD 4 4 349840 0 SINGLE
HXD:TRB:WELL_ANT 16 16 349840 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 349840 0 SINGLE
HXDtrnFitsRead:IROW 4 4 349840 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 349840 349840 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 7.255 0.275 7.530 87.91
[ 2] HXDleapsecInit 0.105 0.178 0.283 3.30
[ 3] HXDgethkInit 0.108 0.172 0.280 3.27
[ 4] HXDwambstid 0.288 0.164 0.452 5.28
(others) 0.013 0.008 0.021 0.25
--------------------------------------------------------------------------
TOTAL 7.769 0.797 8.566 100.00
-> hxdwambstid successful for ae703029010hxd_2_wam.sff.Checksum keywords updated successfully.
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 ae703029010xi0_1_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi0_1_3x3n066.fff.infile,f,a,"ae703029010xi0_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,"ae703029010.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 ae703029010xi0_1_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_1_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 309449 events )
... 10% ( 30944 / 309449 events )
... 20% ( 61888 / 309449 events )
... 30% ( 92832 / 309449 events )
Event... 100001 (100000)
... 40% ( 123776 / 309449 events )
... 50% ( 154720 / 309449 events )
... 60% ( 185664 / 309449 events )
Event... 200001 (200000)
... 70% ( 216608 / 309449 events )
... 80% ( 247552 / 309449 events )
... 90% ( 278496 / 309449 events )
Event... 300001 (300000)
... 100% ( 309449 / 309449 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268023836.840621 / time start
TSTOP = 268103228.829844 / time stop
TELAPASE = 79391.989223 / elapsed time = TSTOP - TSTART
ONTIME = 44727.994390 / on time = sum of all GTIs
LIVETIME = 44727.994390 / on-source time corrected for CCD exposure
EXPOSURE = 44727.994390 / exposure time
xisEventFitsUtil: rename ./file2B3MU2-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 309451
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 309450/309451
[ 2] XISreadExp version 1.6
| OK: 309450/309450
[ 3] XISreadEvent version 2.7
| OK: 309449/309450 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 309449/309449
[ 5] XISeditEventFits version 2.1
| OK: 309449/309449
GET: 309449
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
309450 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
309450 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
309450 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
309449 : XIStime:ENTRY
309449 : XIStime:OK
1 : XISeditEventFits:BEGIN
309449 : XISeditEventFits:ENTRY
309449 : 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 9 9 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 309449 309449 SINGLE
XIS:RAWX 4 4 309449 309449 SINGLE
XIS:RAWY 4 4 309449 309449 SINGLE
XIS:ACTX 4 4 309449 309449 SINGLE
XIS:ACTY 4 4 309449 309449 SINGLE
XIS:DETX 4 4 309449 309449 SINGLE
XIS:DETY 4 4 309449 309449 SINGLE
XIS:FOCX 4 4 309449 309449 SINGLE
XIS:FOCY 4 4 309449 309449 SINGLE
XIS:X 4 4 309449 309449 SINGLE
XIS:Y 4 4 309449 309449 SINGLE
XIS:STATUS 4 4 309449 309449 SINGLE
XIS:PHAS 36 36 309449 309449 SINGLE
XIS:PHANOCTI 4 4 309449 309449 SINGLE
XIS:PHA 4 4 309449 309449 SINGLE
XIS:PI 4 4 309449 309449 SINGLE
XIS:GRADE 4 4 309449 309449 SINGLE
XIS:P_OUTER_MOST 4 4 309449 309449 SINGLE
XIS:SUM_OUTER_MOST 4 4 309449 309449 SINGLE
XIS:AEDATE 4 4 618898 309449 FAMILY
XIS:EXPTIME 4 4 309449 618898 FAMILY
XIS:EXPTIME_AETIME 8 8 618898 309449 SINGLE
XIS:S_TIME 8 8 309449 618898 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 309449 618898 FAMILY
XIS:EVENT_SEQ_NO 4 4 309449 309449 SINGLE
XIS:TIME 8 8 618898 309449 SINGLE
XIS:EXP_CENT_AETIME 8 8 618898 309449 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 309451 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 0.184 0.180 0.364 3.06
[ 2] XISreadExp 0.065 0.180 0.245 2.06
[ 3] XISreadEvent 4.945 0.339 5.284 44.46
[ 4] XIStime 0.762 0.188 0.950 7.99
[ 5] XISeditEventFits 4.639 0.385 5.024 42.28
(others) 0.010 0.007 0.017 0.14
--------------------------------------------------------------------------
TOTAL 10.605 1.279 11.884 100.00
-> xistime successful on ae703029010xi0_1_3x3n066.sff.infile,f,a,"ae703029010xi0_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,"ae703029010.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 ae703029010xi0_1_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_1_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 1
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 584.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 497.50 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 844.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 765.00 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 795.37 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 839.38 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 309449 events )
... 10% ( 30944 / 309449 events )
... 20% ( 61888 / 309449 events )
... 30% ( 92832 / 309449 events )
Event... 100001 (100000)
... 40% ( 123776 / 309449 events )
... 50% ( 154720 / 309449 events )
... 60% ( 185664 / 309449 events )
Event... 200001 (200000)
... 70% ( 216608 / 309449 events )
... 80% ( 247552 / 309449 events )
... 90% ( 278496 / 309449 events )
Event... 300001 (300000)
... 100% ( 309449 / 309449 events )
xisEventFitsUtil: rename ./fileEdHd9o-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 309451
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 309450/309451
[ 2] XISreadExp version 1.6
| OK: 309450/309450
[ 3] XISreadEvent version 2.7
| OK: 309449/309450 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 309449/309449
[ 5] XISeditEventFits version 2.1
| OK: 309449/309449
GET: 309449
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
309450 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
309450 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
309450 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
309449 : XIScoord:ENTRY
309449 : XIScoord:OK
1 : XISeditEventFits:BEGIN
309449 : XISeditEventFits:ENTRY
309449 : 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 9 9 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 309449 618898 SINGLE
XIS:RAWX 4 4 309449 618898 SINGLE
XIS:RAWY 4 4 309449 618898 SINGLE
XIS:ACTX 4 4 618898 309449 SINGLE
XIS:ACTY 4 4 618898 309449 SINGLE
XIS:DETX 4 4 618898 309449 SINGLE
XIS:DETY 4 4 618898 309449 SINGLE
XIS:FOCX 4 4 618898 309449 SINGLE
XIS:FOCY 4 4 618898 309449 SINGLE
XIS:X 4 4 618898 309449 SINGLE
XIS:Y 4 4 618898 309449 SINGLE
XIS:STATUS 4 4 309449 309449 SINGLE
XIS:PHAS 36 36 309449 309449 SINGLE
XIS:PHANOCTI 4 4 309449 309449 SINGLE
XIS:PHA 4 4 309449 309449 SINGLE
XIS:PI 4 4 309449 309449 SINGLE
XIS:GRADE 4 4 309449 309449 SINGLE
XIS:P_OUTER_MOST 4 4 309449 309449 SINGLE
XIS:SUM_OUTER_MOST 4 4 309449 309449 SINGLE
XIS:AEDATE 4 4 309449 309449 FAMILY
XIS:EXPTIME 4 4 309449 309449 FAMILY
XIS:EXPTIME_AETIME 8 8 309449 309449 SINGLE
XIS:S_TIME 8 8 309449 309449 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 309449 309449 FAMILY
XIS:EVENT_SEQ_NO 4 4 309449 309449 SINGLE
XIS:TIME 8 8 309449 618898 SINGLE
XIS:EXP_CENT_AETIME 8 8 309449 309449 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 309451 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 0.250 0.150 0.400 2.95
[ 2] XISreadExp 0.080 0.185 0.265 1.95
[ 3] XISreadEvent 4.996 0.253 5.249 38.71
[ 4] XIScoord 2.122 0.316 2.438 17.97
[ 5] XISeditEventFits 4.725 0.462 5.187 38.25
(others) 0.016 0.007 0.023 0.17
--------------------------------------------------------------------------
TOTAL 12.189 1.373 13.562 100.00
-> xiscoord successful on ae703029010xi0_1_3x3n066.sff.infile,f,a,"ae703029010xi0_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 ae703029010xi0_1_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_1_3x3n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 309449 events )
... 10% ( 30944 / 309449 events )
... 20% ( 61888 / 309449 events )
... 30% ( 92832 / 309449 events )
Event... 100001 (100000)
... 40% ( 123776 / 309449 events )
... 50% ( 154720 / 309449 events )
... 60% ( 185664 / 309449 events )
Event... 200001 (200000)
... 70% ( 216608 / 309449 events )
... 80% ( 247552 / 309449 events )
... 90% ( 278496 / 309449 events )
Event... 300001 (300000)
... 100% ( 309449 / 309449 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 4884 1.58
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 7762 2.51
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 3114 1.01
B8 256 1PIX_FROM_SEGBOUNDARY 1743 0.56
B9 512 SCI_3rd_TRAILING_ROW 3892 1.26
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 8066 2.61
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 4159 1.34
B16 65536 CALMASK 32842 10.61
B17 131072 SEGBOUNDARY 6278 2.03
B18 262144 SCI_2nd_TRAILING_ROW 3801 1.23
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 16336 5.28
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 38949 12.59
B29 536870912 SCI_TRAILING_ROW 36168 11.69
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 100 0.03
### 0 CLEAN_ZERO 168657 54.50
--------------------------------------------------------------
+++ 4294967295 SUM 336751 108.82
::: 524287 SAFE(B0-18) 220203 71.16
>>> 4294967295 TOTAL 309449 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileaLefcf-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 309451
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 309450/309451
[ 2] XISreadExp version 1.6
| OK: 309450/309450
[ 3] XISreadEvent version 2.7
| OK: 309449/309450 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 309449/309449
[ 5] XISeditEventFits version 2.1
| OK: 309449/309449
GET: 309449
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
309450 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
309450 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
309450 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
309449 : XISputPixelQuality:ENTRY
309449 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
309449 : XISeditEventFits:ENTRY
309449 : 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 9 9 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 309449 309449 SINGLE
XIS:RAWX 4 4 309449 309449 SINGLE
XIS:RAWY 4 4 309449 618898 SINGLE
XIS:ACTX 4 4 309449 618898 SINGLE
XIS:ACTY 4 4 309449 618898 SINGLE
XIS:DETX 4 4 309449 309449 SINGLE
XIS:DETY 4 4 309449 309449 SINGLE
XIS:FOCX 4 4 309449 309449 SINGLE
XIS:FOCY 4 4 309449 309449 SINGLE
XIS:X 4 4 309449 309449 SINGLE
XIS:Y 4 4 309449 309449 SINGLE
XIS:STATUS 4 4 618898 309449 SINGLE
XIS:PHAS 36 36 309449 309449 SINGLE
XIS:PHANOCTI 4 4 309449 309449 SINGLE
XIS:PHA 4 4 309449 309449 SINGLE
XIS:PI 4 4 309449 309449 SINGLE
XIS:GRADE 4 4 309449 309449 SINGLE
XIS:P_OUTER_MOST 4 4 309449 309449 SINGLE
XIS:SUM_OUTER_MOST 4 4 309449 309449 SINGLE
XIS:AEDATE 4 4 309449 309449 FAMILY
XIS:EXPTIME 4 4 309449 309449 FAMILY
XIS:EXPTIME_AETIME 8 8 309449 309449 SINGLE
XIS:S_TIME 8 8 309449 309449 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 309449 309449 FAMILY
XIS:EVENT_SEQ_NO 4 4 309449 309449 SINGLE
XIS:TIME 8 8 309449 618898 SINGLE
XIS:EXP_CENT_AETIME 8 8 309449 309449 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 309451 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 0.224 0.156 0.380 3.31
[ 2] XISreadExp 0.078 0.181 0.259 2.25
[ 3] XISreadEvent 5.113 0.191 5.304 46.18
[ 4] XISputPixelQuality 0.346 0.175 0.521 4.54
[ 5] XISeditEventFits 4.454 0.549 5.003 43.56
(others) 0.009 0.009 0.018 0.16
--------------------------------------------------------------------------
TOTAL 10.224 1.261 11.485 100.00
-> xisputpixelquality successful on ae703029010xi0_1_3x3n066.sff.infile,f,a,"ae703029010xi0_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,"ae703029010xi0_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 ae703029010xi0_1_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_1_3x3n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae703029010xi0_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae703029010xi0_0.hk, S0_VDCHK18_CAL, nrows=5197
nvalid=4946 nrej=251 time=268006975.3 - 268190709.3 [s]
AE-temp: average=19.340 sigma=1.313 min=17.208 max=23.104 [degC]
Event... 1 (0)
... 0% ( 0 / 309449 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 30944 / 309449 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 61888 / 309449 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 92832 / 309449 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 123776 / 309449 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 154720 / 309449 events )
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 185664 / 309449 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 216608 / 309449 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 247552 / 309449 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 278496 / 309449 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 309449 / 309449 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileJiS9ao-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 309451
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 309450/309451
[ 2] XISreadExp version 1.6
| OK: 309450/309450
[ 3] XISreadEvent version 2.7
| OK: 309449/309450 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 309449/309449
[ 5] XIStrailCorrection version 3.1
| OK: 309449/309449
[ 6] XISctiCorrection version 3.4
| OK: 309449/309449
[ 7] XISgrade version 3.3
| OK: 309449/309449
[ 8] XISpha2pi version 3.2
| OK: 309449/309449
[ 9] XISeditEventFits version 2.1
| OK: 309449/309449
GET: 309449
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
309450 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
309450 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
309450 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
309449 : XISpreparePHASCORR:ENTRY
309449 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
309449 : XIStrailCorrection:ENTRY
309449 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
309449 : XISctiCorrection:ENTRY
309449 : XISctiCorrection:OK
1 : XISgrade:BEGIN
309449 : XISgrade:ENTRY
309449 : XISgrade:OK
1 : XISpha2pi:BEGIN
309449 : XISpha2pi:ENTRY
309449 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
309449 : XISeditEventFits:ENTRY
309449 : 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 1237802 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 9 9 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 309449 1547245 SINGLE
XIS:RAWX 4 4 309449 928347 SINGLE
XIS:RAWY 4 4 309449 618898 SINGLE
XIS:ACTX 4 4 309449 309449 SINGLE
XIS:ACTY 4 4 309449 928347 SINGLE
XIS:DETX 4 4 309449 309449 SINGLE
XIS:DETY 4 4 309449 309449 SINGLE
XIS:FOCX 4 4 309449 309449 SINGLE
XIS:FOCY 4 4 309449 309449 SINGLE
XIS:X 4 4 309449 309449 SINGLE
XIS:Y 4 4 309449 309449 SINGLE
XIS:STATUS 4 4 309449 309449 SINGLE
XIS:PHAS 36 36 309449 618898 SINGLE
XIS:PHANOCTI 4 4 618898 309449 SINGLE
XIS:PHA 4 4 618898 309449 SINGLE
XIS:PI 4 4 618898 309449 SINGLE
XIS:GRADE 4 4 618898 309449 SINGLE
XIS:P_OUTER_MOST 4 4 309449 618898 SINGLE
XIS:SUM_OUTER_MOST 4 4 309449 618898 SINGLE
XIS:AEDATE 4 4 309449 309449 FAMILY
XIS:EXPTIME 4 4 309449 309449 FAMILY
XIS:EXPTIME_AETIME 8 8 309449 309449 SINGLE
XIS:S_TIME 8 8 309449 309449 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 309449 309449 FAMILY
XIS:EVENT_SEQ_NO 4 4 309449 309449 SINGLE
XIS:TIME 8 8 309449 1547245 SINGLE
XIS:EXP_CENT_AETIME 8 8 309449 309449 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 309451 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 618898 309449 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 309449 309449 SINGLE
XIS:PHASCORR 72 72 928347 928347 SINGLE
XIS:PHA:DOUBLE 8 8 309449 309449 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 0.286 0.166 0.452 1.43
[ 2] XISreadExp 0.078 0.148 0.226 0.72
[ 3] XISreadEvent 5.204 0.236 5.440 17.27
[ 4] XISpreparePHASCORR 0.234 0.164 0.398 1.26
[ 5] XIStrailCorrection 0.654 0.143 0.797 2.53
[ 6] XISctiCorrection 11.901 5.000 16.901 53.65
[ 7] XISgrade 1.093 0.149 1.242 3.94
[ 8] XISpha2pi 0.677 0.166 0.843 2.68
[ 9] XISeditEventFits 4.774 0.406 5.180 16.44
(others) 0.019 0.007 0.026 0.08
--------------------------------------------------------------------------
TOTAL 24.920 6.585 31.505 100.00
-> xispi successful on ae703029010xi0_1_3x3n066.sff.infile,f,a,"ae703029010xi0_1_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi0_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 ae703029010xi0_1_3x3n066.sff
OUTFILE ae703029010xi0_1_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi0_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 / 309449 events )
frame time jump, t=268024188.841 - 268027236.840 by 3048.000 s
frame time jump, t=268027380.840 - 268027644.840 by 264.000 s
frame time jump, t=268029948.840 - 268033212.839 by 3264.000 s
frame time jump, t=268033348.839 - 268033612.839 by 264.000 s
saturated frame, t=268035684.839 - 268035692.839 2570 (504/3074) seg=1111
frame time jump, t=268035692.839 - 268035700.839 by 8.000 s
saturated frame, t=268035700.839 - 268035708.839 2776 (147/2923) seg=1111
frame time jump, t=268035708.839 - 268037772.839 by 2064.000 s
... 10% ( 30944 / 309449 events )
frame time jump, t=268038180.839 - 268039092.839 by 912.000 s
frame time jump, t=268039228.838 - 268039492.838 by 264.000 s
saturated frame, t=268041436.838 - 268041444.838 2424 (506/2930) seg=1111
frame time jump, t=268041444.838 - 268041452.838 by 8.000 s
saturated frame, t=268041452.838 - 268041460.838 2038 (492/2530) seg=1111
frame time jump, t=268041460.838 - 268041468.838 by 8.000 s
saturated frame, t=268041468.838 - 268041476.838 2032 (484/2516) seg=1111
frame time jump, t=268041476.838 - 268043532.838 by 2056.000 s
frame time jump, t=268044372.838 - 268044548.838 by 176.000 s
frame time jump, t=268044692.838 - 268044956.838 by 264.000 s
... 20% ( 61888 / 309449 events )
frame time jump, t=268047196.837 - 268049284.837 by 2088.000 s
frame time jump, t=268052956.837 - 268055044.836 by 2088.000 s
... 30% ( 92832 / 309449 events )
frame time jump, t=268058716.836 - 268060804.836 by 2088.000 s
... 40% ( 123776 / 309449 events )
saturated frame, t=268064444.835 - 268064452.835 389 (515/904) seg=1111
frame time jump, t=268064452.835 - 268066548.835 by 2096.000 s
... 50% ( 154720 / 309449 events )
frame time jump, t=268070204.834 - 268072292.834 by 2088.000 s
... 60% ( 185664 / 309449 events )
frame time jump, t=268075964.834 - 268078052.833 by 2088.000 s
... 70% ( 216608 / 309449 events )
frame time jump, t=268081724.833 - 268083812.832 by 2088.000 s
... 80% ( 247552 / 309449 events )
saturated frame, t=268087452.832 - 268087460.832 2438 (504/2942) seg=1111
frame time jump, t=268087460.832 - 268089684.832 by 2224.000 s
... 90% ( 278496 / 309449 events )
frame time jump, t=268093220.831 - 268095372.831 by 2152.000 s
frame time jump, t=268095508.831 - 268095772.831 by 264.000 s
frame time jump, t=268098980.830 - 268101516.830 by 2536.000 s
frame time jump, t=268101660.830 - 268101924.830 by 264.000 s
... 100% ( 309449 / 309449 events )
XIScheckEventNo: GTI file 'ae703029010xi0_1_3x3n066.gti' created
N_FRAMES = 5591 / number of frames in the input event file
N_TESTED = 5591 / number of non-zero frames tested
N_PASSED = 5584 / number of frames passed the test
N_T_JUMP = 25 / number of frames detected time jump
N_SATURA = 7 / number of frames telemetry saturated
T_TESTED = 44728.000000 / exposure of non-zero frames tested
T_PASSED = 44672.000000 / exposure of frames passed the test
T_T_JUMP = 34663.994832 / loss of exposure due to time jump
T_SATURA = 56.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 5592
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 5591/5592
[ 2] XISreadExp version 1.6
| OK: 5591/5591
[ 3] XISreadEvent version 2.7 <------- LOOP: 309449
| OK: 309449/315040 -------> SKIP: 5591
[ 4] XIScheckEventNo version 1.2
| OK: 309449/309449
GET: 309449
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
5591 : XISreadFrame:ENTRY
5591 : XISreadFrame:OK
1 : XISreadExp:BEGIN
5591 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
315040 : XISreadEvent:ENTRY
315039 : XISreadEvent:OK
5591 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
309449 : XIScheckEventNo:ENTRY
309449 : 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 9 9 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 5591 315040 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 5591 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 5591 315040 SINGLE
XIS:FRAMES:S_TIME 8 8 5591 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 5591 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 5591 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 5591 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 5591 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 5591 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 5591 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 5591 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 5591 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 5591 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 5591 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 5591 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 5591 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 5591 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 5591 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 5591 5591 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 5591 0 SINGLE
XIS:FRAMES:BIAS 16 16 5591 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 5591 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 5591 0 SINGLE
XIS:FRAMES:AEDATE 4 4 5591 315040 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 5591 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 5591 309449 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 5591 5591 SINGLE
XIS:FRAMES:TIME 8 8 5591 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 309449 309449 SINGLE
XIS:RAWX 4 4 309449 0 SINGLE
XIS:RAWY 4 4 309449 0 SINGLE
XIS:ACTX 4 4 309449 0 SINGLE
XIS:ACTY 4 4 309449 0 SINGLE
XIS:DETX 4 4 309449 0 SINGLE
XIS:DETY 4 4 309449 0 SINGLE
XIS:FOCX 4 4 309449 0 SINGLE
XIS:FOCY 4 4 309449 0 SINGLE
XIS:X 4 4 309449 0 SINGLE
XIS:Y 4 4 309449 0 SINGLE
XIS:STATUS 4 4 309449 0 SINGLE
XIS:PHAS 36 36 309449 0 SINGLE
XIS:PHANOCTI 4 4 309449 0 SINGLE
XIS:PHA 4 4 309449 0 SINGLE
XIS:PI 4 4 309449 0 SINGLE
XIS:GRADE 4 4 309449 0 SINGLE
XIS:P_OUTER_MOST 4 4 309449 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 309449 0 SINGLE
XIS:AEDATE 4 4 309449 315039 FAMILY
XIS:EXPTIME 4 4 309449 315039 FAMILY
XIS:EXPTIME_AETIME 8 8 309449 0 SINGLE
XIS:S_TIME 8 8 309449 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 309449 315039 FAMILY
XIS:EVENT_SEQ_NO 4 4 309449 315039 SINGLE
XIS:TIME 8 8 309449 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 309449 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 1.289 0.018 1.307 15.10
[ 2] XISreadExp 0.002 0.005 0.007 0.08
[ 3] XISreadEvent 6.866 0.176 7.042 81.37
[ 4] XIScheckEventNo 0.138 0.141 0.279 3.22
(others) 0.013 0.006 0.019 0.22
--------------------------------------------------------------------------
TOTAL 8.308 0.346 8.654 100.00
-> xisgtigen successful on ae703029010xi0_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 ae703029010xi0_1_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi0_1_5x5n066.fff.infile,f,a,"ae703029010xi0_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,"ae703029010.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 ae703029010xi0_1_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_1_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 85351 events )
... 10% ( 8535 / 85351 events )
... 20% ( 17070 / 85351 events )
... 30% ( 25605 / 85351 events )
... 40% ( 34140 / 85351 events )
... 50% ( 42675 / 85351 events )
... 60% ( 51210 / 85351 events )
... 70% ( 59745 / 85351 events )
... 80% ( 68280 / 85351 events )
... 90% ( 76815 / 85351 events )
... 100% ( 85351 / 85351 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268006972.842802 / time start
TSTOP = 268023836.840622 / time stop
TELAPASE = 16863.997820 / elapsed time = TSTOP - TSTART
ONTIME = 11167.998678 / on time = sum of all GTIs
LIVETIME = 11167.998678 / on-source time corrected for CCD exposure
EXPOSURE = 11167.998678 / exposure time
xisEventFitsUtil: rename ./file5clymi-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 85353
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 85352/85353
[ 2] XISreadExp version 1.6
| OK: 85352/85352
[ 3] XISreadEvent version 2.7
| OK: 85351/85352 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 85351/85351
[ 5] XISeditEventFits version 2.1
| OK: 85351/85351
GET: 85351
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
85352 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
85352 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
85352 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
85351 : XIStime:ENTRY
85351 : XIStime:OK
1 : XISeditEventFits:BEGIN
85351 : XISeditEventFits:ENTRY
85351 : 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 9 9 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 85351 85351 SINGLE
XIS:RAWX 4 4 85351 85351 SINGLE
XIS:RAWY 4 4 85351 85351 SINGLE
XIS:ACTX 4 4 85351 85351 SINGLE
XIS:ACTY 4 4 85351 85351 SINGLE
XIS:DETX 4 4 85351 85351 SINGLE
XIS:DETY 4 4 85351 85351 SINGLE
XIS:FOCX 4 4 85351 85351 SINGLE
XIS:FOCY 4 4 85351 85351 SINGLE
XIS:X 4 4 85351 85351 SINGLE
XIS:Y 4 4 85351 85351 SINGLE
XIS:STATUS 4 4 85351 85351 SINGLE
XIS:PHAS 100 100 85351 85351 SINGLE
XIS:PHANOCTI 4 4 85351 85351 SINGLE
XIS:PHA 4 4 85351 85351 SINGLE
XIS:PI 4 4 85351 85351 SINGLE
XIS:GRADE 4 4 85351 85351 SINGLE
XIS:AEDATE 4 4 170702 85351 FAMILY
XIS:EXPTIME 4 4 85351 170702 FAMILY
XIS:EXPTIME_AETIME 8 8 170702 85351 SINGLE
XIS:S_TIME 8 8 85351 170702 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 85351 170702 FAMILY
XIS:EVENT_SEQ_NO 4 4 85351 85351 SINGLE
XIS:TIME 8 8 170702 85351 SINGLE
XIS:EXP_CENT_AETIME 8 8 170702 85351 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 85353 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 0.078 0.054 0.132 3.96
[ 2] XISreadExp 0.033 0.057 0.090 2.70
[ 3] XISreadEvent 1.231 0.083 1.314 39.46
[ 4] XIStime 0.320 0.048 0.368 11.05
[ 5] XISeditEventFits 1.288 0.123 1.411 42.37
(others) 0.009 0.006 0.015 0.45
--------------------------------------------------------------------------
TOTAL 2.959 0.371 3.329 100.00
-> xistime successful on ae703029010xi0_1_5x5n066.sff.infile,f,a,"ae703029010xi0_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,"ae703029010.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 ae703029010xi0_1_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_1_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 0
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 584.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 497.50 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 844.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 765.00 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 795.37 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 839.38 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 85351 events )
... 10% ( 8535 / 85351 events )
... 20% ( 17070 / 85351 events )
... 30% ( 25605 / 85351 events )
... 40% ( 34140 / 85351 events )
... 50% ( 42675 / 85351 events )
... 60% ( 51210 / 85351 events )
... 70% ( 59745 / 85351 events )
... 80% ( 68280 / 85351 events )
... 90% ( 76815 / 85351 events )
... 100% ( 85351 / 85351 events )
xisEventFitsUtil: rename ./fileKtecJq-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 85353
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 85352/85353
[ 2] XISreadExp version 1.6
| OK: 85352/85352
[ 3] XISreadEvent version 2.7
| OK: 85351/85352 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 85351/85351
[ 5] XISeditEventFits version 2.1
| OK: 85351/85351
GET: 85351
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
85352 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
85352 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
85352 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
85351 : XIScoord:ENTRY
85351 : XIScoord:OK
1 : XISeditEventFits:BEGIN
85351 : XISeditEventFits:ENTRY
85351 : 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 9 9 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 85351 170702 SINGLE
XIS:RAWX 4 4 85351 170702 SINGLE
XIS:RAWY 4 4 85351 170702 SINGLE
XIS:ACTX 4 4 170702 85351 SINGLE
XIS:ACTY 4 4 170702 85351 SINGLE
XIS:DETX 4 4 170702 85351 SINGLE
XIS:DETY 4 4 170702 85351 SINGLE
XIS:FOCX 4 4 170702 85351 SINGLE
XIS:FOCY 4 4 170702 85351 SINGLE
XIS:X 4 4 170702 85351 SINGLE
XIS:Y 4 4 170702 85351 SINGLE
XIS:STATUS 4 4 85351 85351 SINGLE
XIS:PHAS 100 100 85351 85351 SINGLE
XIS:PHANOCTI 4 4 85351 85351 SINGLE
XIS:PHA 4 4 85351 85351 SINGLE
XIS:PI 4 4 85351 85351 SINGLE
XIS:GRADE 4 4 85351 85351 SINGLE
XIS:AEDATE 4 4 85351 85351 FAMILY
XIS:EXPTIME 4 4 85351 85351 FAMILY
XIS:EXPTIME_AETIME 8 8 85351 85351 SINGLE
XIS:S_TIME 8 8 85351 85351 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 85351 85351 FAMILY
XIS:EVENT_SEQ_NO 4 4 85351 85351 SINGLE
XIS:TIME 8 8 85351 170702 SINGLE
XIS:EXP_CENT_AETIME 8 8 85351 85351 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 85353 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 0.053 0.061 0.114 3.05
[ 2] XISreadExp 0.016 0.052 0.068 1.82
[ 3] XISreadEvent 1.341 0.084 1.425 38.15
[ 4] XIScoord 0.612 0.107 0.719 19.25
[ 5] XISeditEventFits 1.222 0.165 1.387 37.14
(others) 0.015 0.007 0.022 0.59
--------------------------------------------------------------------------
TOTAL 3.259 0.476 3.734 100.00
-> xiscoord successful on ae703029010xi0_1_5x5n066.sff.infile,f,a,"ae703029010xi0_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 ae703029010xi0_1_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_1_5x5n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 85351 events )
... 10% ( 8535 / 85351 events )
... 20% ( 17070 / 85351 events )
... 30% ( 25605 / 85351 events )
... 40% ( 34140 / 85351 events )
... 50% ( 42675 / 85351 events )
... 60% ( 51210 / 85351 events )
... 70% ( 59745 / 85351 events )
... 80% ( 68280 / 85351 events )
... 90% ( 76815 / 85351 events )
... 100% ( 85351 / 85351 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 1434 1.68
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 2201 2.58
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 930 1.09
B8 256 1PIX_FROM_SEGBOUNDARY 488 0.57
B9 512 SCI_3rd_TRAILING_ROW 929 1.09
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 2199 2.58
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 969 1.14
B16 65536 CALMASK 8197 9.60
B17 131072 SEGBOUNDARY 1839 2.15
B18 262144 SCI_2nd_TRAILING_ROW 903 1.06
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 6451 7.56
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 17700 20.74
B29 536870912 SCI_TRAILING_ROW 14560 17.06
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 32 0.04
### 0 CLEAN_ZERO 37196 43.58
--------------------------------------------------------------
+++ 4294967295 SUM 96028 112.51
::: 524287 SAFE(B0-18) 49286 57.75
>>> 4294967295 TOTAL 85351 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filej8vsWS-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 85353
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 85352/85353
[ 2] XISreadExp version 1.6
| OK: 85352/85352
[ 3] XISreadEvent version 2.7
| OK: 85351/85352 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 85351/85351
[ 5] XISeditEventFits version 2.1
| OK: 85351/85351
GET: 85351
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
85352 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
85352 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
85352 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
85351 : XISputPixelQuality:ENTRY
85351 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
85351 : XISeditEventFits:ENTRY
85351 : 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 9 9 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 85351 85351 SINGLE
XIS:RAWX 4 4 85351 85351 SINGLE
XIS:RAWY 4 4 85351 170702 SINGLE
XIS:ACTX 4 4 85351 170702 SINGLE
XIS:ACTY 4 4 85351 170702 SINGLE
XIS:DETX 4 4 85351 85351 SINGLE
XIS:DETY 4 4 85351 85351 SINGLE
XIS:FOCX 4 4 85351 85351 SINGLE
XIS:FOCY 4 4 85351 85351 SINGLE
XIS:X 4 4 85351 85351 SINGLE
XIS:Y 4 4 85351 85351 SINGLE
XIS:STATUS 4 4 170702 85351 SINGLE
XIS:PHAS 100 100 85351 85351 SINGLE
XIS:PHANOCTI 4 4 85351 85351 SINGLE
XIS:PHA 4 4 85351 85351 SINGLE
XIS:PI 4 4 85351 85351 SINGLE
XIS:GRADE 4 4 85351 85351 SINGLE
XIS:AEDATE 4 4 85351 85351 FAMILY
XIS:EXPTIME 4 4 85351 85351 FAMILY
XIS:EXPTIME_AETIME 8 8 85351 85351 SINGLE
XIS:S_TIME 8 8 85351 85351 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 85351 85351 FAMILY
XIS:EVENT_SEQ_NO 4 4 85351 85351 SINGLE
XIS:TIME 8 8 85351 170702 SINGLE
XIS:EXP_CENT_AETIME 8 8 85351 85351 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 85353 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 0.063 0.035 0.098 3.10
[ 2] XISreadExp 0.026 0.037 0.063 1.99
[ 3] XISreadEvent 1.338 0.060 1.398 44.23
[ 4] XISputPixelQuality 0.167 0.052 0.219 6.93
[ 5] XISeditEventFits 1.202 0.164 1.366 43.21
(others) 0.010 0.007 0.017 0.54
--------------------------------------------------------------------------
TOTAL 2.806 0.355 3.161 100.00
-> xisputpixelquality successful on ae703029010xi0_1_5x5n066.sff.infile,f,a,"ae703029010xi0_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,"ae703029010xi0_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 ae703029010xi0_1_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_1_5x5n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae703029010xi0_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae703029010xi0_0.hk, S0_VDCHK18_CAL, nrows=5197
nvalid=4946 nrej=251 time=268006975.3 - 268190709.3 [s]
AE-temp: average=19.340 sigma=1.313 min=17.208 max=23.104 [degC]
Event... 1 (0)
... 0% ( 0 / 85351 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 8535 / 85351 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 17070 / 85351 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 25605 / 85351 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 34140 / 85351 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 42675 / 85351 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 51210 / 85351 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 59745 / 85351 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 68280 / 85351 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 76815 / 85351 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 85351 / 85351 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileskrUHs-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 85353
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 85352/85353
[ 2] XISreadExp version 1.6
| OK: 85352/85352
[ 3] XISreadEvent version 2.7
| OK: 85351/85352 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 85351/85351
[ 5] XIStrailCorrection version 3.1
| OK: 85351/85351
[ 6] XISctiCorrection version 3.4
| OK: 85351/85351
[ 7] XISgrade version 3.3
| OK: 85351/85351
[ 8] XISpha2pi version 3.2
| OK: 85351/85351
[ 9] XISeditEventFits version 2.1
| OK: 85351/85351
GET: 85351
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
85352 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
85352 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
85352 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
85351 : XISpreparePHASCORR:ENTRY
85351 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
85351 : XIStrailCorrection:ENTRY
85351 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
85351 : XISctiCorrection:ENTRY
85351 : XISctiCorrection:OK
1 : XISgrade:BEGIN
85351 : XISgrade:ENTRY
85351 : XISgrade:OK
1 : XISpha2pi:BEGIN
85351 : XISpha2pi:ENTRY
85351 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
85351 : XISeditEventFits:ENTRY
85351 : 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 341410 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 9 9 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 85351 426755 SINGLE
XIS:RAWX 4 4 85351 256053 SINGLE
XIS:RAWY 4 4 85351 170702 SINGLE
XIS:ACTX 4 4 85351 85351 SINGLE
XIS:ACTY 4 4 85351 256053 SINGLE
XIS:DETX 4 4 85351 85351 SINGLE
XIS:DETY 4 4 85351 85351 SINGLE
XIS:FOCX 4 4 85351 85351 SINGLE
XIS:FOCY 4 4 85351 85351 SINGLE
XIS:X 4 4 85351 85351 SINGLE
XIS:Y 4 4 85351 85351 SINGLE
XIS:STATUS 4 4 85351 85351 SINGLE
XIS:PHAS 100 100 85351 170702 SINGLE
XIS:PHANOCTI 4 4 170702 85351 SINGLE
XIS:PHA 4 4 170702 85351 SINGLE
XIS:PI 4 4 170702 85351 SINGLE
XIS:GRADE 4 4 170702 85351 SINGLE
XIS:AEDATE 4 4 85351 85351 FAMILY
XIS:EXPTIME 4 4 85351 85351 FAMILY
XIS:EXPTIME_AETIME 8 8 85351 85351 SINGLE
XIS:S_TIME 8 8 85351 85351 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 85351 85351 FAMILY
XIS:EVENT_SEQ_NO 4 4 85351 85351 SINGLE
XIS:TIME 8 8 85351 426755 SINGLE
XIS:EXP_CENT_AETIME 8 8 85351 85351 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 85353 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 170702 85351 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 85351 85351 SINGLE
XIS:PHASCORR 200 200 256053 256053 SINGLE
XIS:PHA:DOUBLE 8 8 85351 85351 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 0.091 0.044 0.135 1.41
[ 2] XISreadExp 0.033 0.037 0.070 0.73
[ 3] XISreadEvent 1.376 0.092 1.468 15.30
[ 4] XISpreparePHASCORR 0.091 0.032 0.123 1.28
[ 5] XIStrailCorrection 0.186 0.054 0.240 2.50
[ 6] XISctiCorrection 4.230 1.268 5.498 57.32
[ 7] XISgrade 0.302 0.049 0.351 3.66
[ 8] XISpha2pi 0.230 0.040 0.270 2.81
[ 9] XISeditEventFits 1.290 0.123 1.413 14.73
(others) 0.017 0.007 0.024 0.25
--------------------------------------------------------------------------
TOTAL 7.846 1.746 9.592 100.00
-> xispi successful on ae703029010xi0_1_5x5n066.sff.infile,f,a,"ae703029010xi0_1_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi0_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 ae703029010xi0_1_5x5n066.sff
OUTFILE ae703029010xi0_1_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi0_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 / 85351 events )
saturated frame, t=268007260.843 - 268007268.843 896 (831/1727) seg=1111
saturated frame, t=268007268.843 - 268007276.843 1011 (832/1843) seg=1111
frame time jump, t=268007588.843 - 268009068.842 by 1480.000 s
... 10% ( 8535 / 85351 events )
frame time jump, t=268009212.842 - 268009476.842 by 264.000 s
... 20% ( 17070 / 85351 events )
... 30% ( 25605 / 85351 events )
saturated frame, t=268012868.842 - 268012876.842 410 (842/1252) seg=1111
saturated frame, t=268012892.842 - 268012900.842 53 (857/910) seg=1111
saturated frame, t=268012900.842 - 268012908.842 39 (860/899) seg=1111
... 40% ( 34140 / 85351 events )
saturated frame, t=268012956.842 - 268012964.842 33 (857/890) seg=1111
saturated frame, t=268012964.842 - 268012972.842 2166 (826/2992) seg=1111
... 50% ( 42675 / 85351 events )
frame time jump, t=268013652.842 - 268015188.842 by 1536.000 s
frame time jump, t=268015332.842 - 268015596.842 by 264.000 s
... 60% ( 51210 / 85351 events )
frame time jump, t=268017108.841 - 268017564.841 by 456.000 s
... 70% ( 59745 / 85351 events )
saturated frame, t=268018740.841 - 268018748.841 1966 (830/2796) seg=1111
saturated frame, t=268018748.841 - 268018756.841 2136 (829/2965) seg=1111
saturated frame, t=268018756.841 - 268018764.841 2112 (824/2936) seg=1111
saturated frame, t=268018764.841 - 268018772.841 1386 (829/2215) seg=1111
... 80% ( 68280 / 85351 events )
frame time jump, t=268019828.841 - 268021260.841 by 1432.000 s
frame time jump, t=268021404.841 - 268021668.841 by 264.000 s
... 90% ( 76815 / 85351 events )
... 100% ( 85351 / 85351 events )
XIScheckEventNo: GTI file 'ae703029010xi0_1_5x5n066.gti' created
N_FRAMES = 1396 / number of frames in the input event file
N_TESTED = 1396 / number of non-zero frames tested
N_PASSED = 1385 / number of frames passed the test
N_T_JUMP = 7 / number of frames detected time jump
N_SATURA = 11 / number of frames telemetry saturated
T_TESTED = 11168.000000 / exposure of non-zero frames tested
T_PASSED = 11080.000000 / exposure of frames passed the test
T_T_JUMP = 5695.999142 / loss of exposure due to time jump
T_SATURA = 88.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1397
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 1396/1397
[ 2] XISreadExp version 1.6
| OK: 1396/1396
[ 3] XISreadEvent version 2.7 <------- LOOP: 85351
| OK: 85351/86747 -------> SKIP: 1396
[ 4] XIScheckEventNo version 1.2
| OK: 85351/85351
GET: 85351
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
1396 : XISreadFrame:ENTRY
1396 : XISreadFrame:OK
1 : XISreadExp:BEGIN
1396 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
86747 : XISreadEvent:ENTRY
86746 : XISreadEvent:OK
1396 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
85351 : XIScheckEventNo:ENTRY
85351 : 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 9 9 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 1396 86747 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 1396 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 1396 86747 SINGLE
XIS:FRAMES:S_TIME 8 8 1396 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 1396 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 1396 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 1396 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 1396 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 1396 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 1396 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 1396 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 1396 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 1396 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 1396 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 1396 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 1396 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 1396 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 1396 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 1396 1396 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 1396 0 SINGLE
XIS:FRAMES:BIAS 16 16 1396 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 1396 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 1396 0 SINGLE
XIS:FRAMES:AEDATE 4 4 1396 86747 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 1396 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 1396 85351 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 1396 1396 SINGLE
XIS:FRAMES:TIME 8 8 1396 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 85351 85351 SINGLE
XIS:RAWX 4 4 85351 0 SINGLE
XIS:RAWY 4 4 85351 0 SINGLE
XIS:ACTX 4 4 85351 0 SINGLE
XIS:ACTY 4 4 85351 0 SINGLE
XIS:DETX 4 4 85351 0 SINGLE
XIS:DETY 4 4 85351 0 SINGLE
XIS:FOCX 4 4 85351 0 SINGLE
XIS:FOCY 4 4 85351 0 SINGLE
XIS:X 4 4 85351 0 SINGLE
XIS:Y 4 4 85351 0 SINGLE
XIS:STATUS 4 4 85351 0 SINGLE
XIS:PHAS 100 100 85351 0 SINGLE
XIS:PHANOCTI 4 4 85351 0 SINGLE
XIS:PHA 4 4 85351 0 SINGLE
XIS:PI 4 4 85351 0 SINGLE
XIS:GRADE 4 4 85351 0 SINGLE
XIS:AEDATE 4 4 85351 86746 FAMILY
XIS:EXPTIME 4 4 85351 86746 FAMILY
XIS:EXPTIME_AETIME 8 8 85351 0 SINGLE
XIS:S_TIME 8 8 85351 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 85351 86746 FAMILY
XIS:EVENT_SEQ_NO 4 4 85351 86746 SINGLE
XIS:TIME 8 8 85351 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 85351 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 0.319 0.002 0.321 14.16
[ 2] XISreadExp 0.002 0.000 0.002 0.09
[ 3] XISreadEvent 1.784 0.056 1.840 81.16
[ 4] XIScheckEventNo 0.037 0.048 0.085 3.75
(others) 0.010 0.009 0.019 0.84
--------------------------------------------------------------------------
TOTAL 2.152 0.115 2.267 100.00
-> xisgtigen successful on ae703029010xi0_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 ae703029010xi0_2_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi0_2_3x3n066.fff.infile,f,a,"ae703029010xi0_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,"ae703029010.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 ae703029010xi0_2_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_2_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 289827 events )
... 10% ( 28982 / 289827 events )
... 20% ( 57964 / 289827 events )
... 30% ( 86946 / 289827 events )
Event... 100001 (100000)
... 40% ( 115928 / 289827 events )
... 50% ( 144910 / 289827 events )
... 60% ( 173892 / 289827 events )
Event... 200001 (200000)
... 70% ( 202874 / 289827 events )
... 80% ( 231856 / 289827 events )
... 90% ( 260838 / 289827 events )
... 100% ( 289827 / 289827 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268103228.829843 / time start
TSTOP = 268177324.819800 / time stop
TELAPASE = 74095.989957 / elapsed time = TSTOP - TSTART
ONTIME = 42167.994646 / on time = sum of all GTIs
LIVETIME = 42167.994646 / on-source time corrected for CCD exposure
EXPOSURE = 42167.994646 / exposure time
xisEventFitsUtil: rename ./filewB1M0c-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 289829
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 289828/289829
[ 2] XISreadExp version 1.6
| OK: 289828/289828
[ 3] XISreadEvent version 2.7
| OK: 289827/289828 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 289827/289827
[ 5] XISeditEventFits version 2.1
| OK: 289827/289827
GET: 289827
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
289828 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
289828 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
289828 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
289827 : XIStime:ENTRY
289827 : XIStime:OK
1 : XISeditEventFits:BEGIN
289827 : XISeditEventFits:ENTRY
289827 : 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 9 9 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 289827 289827 SINGLE
XIS:RAWX 4 4 289827 289827 SINGLE
XIS:RAWY 4 4 289827 289827 SINGLE
XIS:ACTX 4 4 289827 289827 SINGLE
XIS:ACTY 4 4 289827 289827 SINGLE
XIS:DETX 4 4 289827 289827 SINGLE
XIS:DETY 4 4 289827 289827 SINGLE
XIS:FOCX 4 4 289827 289827 SINGLE
XIS:FOCY 4 4 289827 289827 SINGLE
XIS:X 4 4 289827 289827 SINGLE
XIS:Y 4 4 289827 289827 SINGLE
XIS:STATUS 4 4 289827 289827 SINGLE
XIS:PHAS 36 36 289827 289827 SINGLE
XIS:PHANOCTI 4 4 289827 289827 SINGLE
XIS:PHA 4 4 289827 289827 SINGLE
XIS:PI 4 4 289827 289827 SINGLE
XIS:GRADE 4 4 289827 289827 SINGLE
XIS:P_OUTER_MOST 4 4 289827 289827 SINGLE
XIS:SUM_OUTER_MOST 4 4 289827 289827 SINGLE
XIS:AEDATE 4 4 579654 289827 FAMILY
XIS:EXPTIME 4 4 289827 579654 FAMILY
XIS:EXPTIME_AETIME 8 8 579654 289827 SINGLE
XIS:S_TIME 8 8 289827 579654 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 289827 579654 FAMILY
XIS:EVENT_SEQ_NO 4 4 289827 289827 SINGLE
XIS:TIME 8 8 579654 289827 SINGLE
XIS:EXP_CENT_AETIME 8 8 579654 289827 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 289829 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 0.194 0.140 0.334 3.01
[ 2] XISreadExp 0.088 0.145 0.233 2.10
[ 3] XISreadEvent 4.786 0.288 5.074 45.73
[ 4] XIStime 0.750 0.138 0.888 8.00
[ 5] XISeditEventFits 4.194 0.356 4.550 41.01
(others) 0.012 0.005 0.017 0.15
--------------------------------------------------------------------------
TOTAL 10.024 1.072 11.096 100.00
-> xistime successful on ae703029010xi0_2_3x3n066.sff.infile,f,a,"ae703029010xi0_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,"ae703029010.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 ae703029010xi0_2_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_2_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 1
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 584.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 497.50 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 844.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 765.00 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 795.37 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 839.38 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 289827 events )
... 10% ( 28982 / 289827 events )
... 20% ( 57964 / 289827 events )
... 30% ( 86946 / 289827 events )
Event... 100001 (100000)
... 40% ( 115928 / 289827 events )
... 50% ( 144910 / 289827 events )
... 60% ( 173892 / 289827 events )
Event... 200001 (200000)
... 70% ( 202874 / 289827 events )
... 80% ( 231856 / 289827 events )
... 90% ( 260838 / 289827 events )
... 100% ( 289827 / 289827 events )
xisEventFitsUtil: rename ./fileHUNAkE-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 289829
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 289828/289829
[ 2] XISreadExp version 1.6
| OK: 289828/289828
[ 3] XISreadEvent version 2.7
| OK: 289827/289828 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 289827/289827
[ 5] XISeditEventFits version 2.1
| OK: 289827/289827
GET: 289827
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
289828 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
289828 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
289828 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
289827 : XIScoord:ENTRY
289827 : XIScoord:OK
1 : XISeditEventFits:BEGIN
289827 : XISeditEventFits:ENTRY
289827 : 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 9 9 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 289827 579654 SINGLE
XIS:RAWX 4 4 289827 579654 SINGLE
XIS:RAWY 4 4 289827 579654 SINGLE
XIS:ACTX 4 4 579654 289827 SINGLE
XIS:ACTY 4 4 579654 289827 SINGLE
XIS:DETX 4 4 579654 289827 SINGLE
XIS:DETY 4 4 579654 289827 SINGLE
XIS:FOCX 4 4 579654 289827 SINGLE
XIS:FOCY 4 4 579654 289827 SINGLE
XIS:X 4 4 579654 289827 SINGLE
XIS:Y 4 4 579654 289827 SINGLE
XIS:STATUS 4 4 289827 289827 SINGLE
XIS:PHAS 36 36 289827 289827 SINGLE
XIS:PHANOCTI 4 4 289827 289827 SINGLE
XIS:PHA 4 4 289827 289827 SINGLE
XIS:PI 4 4 289827 289827 SINGLE
XIS:GRADE 4 4 289827 289827 SINGLE
XIS:P_OUTER_MOST 4 4 289827 289827 SINGLE
XIS:SUM_OUTER_MOST 4 4 289827 289827 SINGLE
XIS:AEDATE 4 4 289827 289827 FAMILY
XIS:EXPTIME 4 4 289827 289827 FAMILY
XIS:EXPTIME_AETIME 8 8 289827 289827 SINGLE
XIS:S_TIME 8 8 289827 289827 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 289827 289827 FAMILY
XIS:EVENT_SEQ_NO 4 4 289827 289827 SINGLE
XIS:TIME 8 8 289827 579654 SINGLE
XIS:EXP_CENT_AETIME 8 8 289827 289827 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 289829 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 0.240 0.178 0.418 3.28
[ 2] XISreadExp 0.063 0.174 0.237 1.86
[ 3] XISreadEvent 4.749 0.224 4.973 39.05
[ 4] XIScoord 2.061 0.265 2.326 18.26
[ 5] XISeditEventFits 4.301 0.458 4.759 37.37
(others) 0.017 0.005 0.022 0.17
--------------------------------------------------------------------------
TOTAL 11.431 1.304 12.735 100.00
-> xiscoord successful on ae703029010xi0_2_3x3n066.sff.infile,f,a,"ae703029010xi0_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 ae703029010xi0_2_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_2_3x3n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 289827 events )
... 10% ( 28982 / 289827 events )
... 20% ( 57964 / 289827 events )
... 30% ( 86946 / 289827 events )
Event... 100001 (100000)
... 40% ( 115928 / 289827 events )
... 50% ( 144910 / 289827 events )
... 60% ( 173892 / 289827 events )
Event... 200001 (200000)
... 70% ( 202874 / 289827 events )
... 80% ( 231856 / 289827 events )
... 90% ( 260838 / 289827 events )
... 100% ( 289827 / 289827 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 4440 1.53
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 7212 2.49
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 2854 0.98
B8 256 1PIX_FROM_SEGBOUNDARY 1555 0.54
B9 512 SCI_3rd_TRAILING_ROW 3581 1.24
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 7503 2.59
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 3938 1.36
B16 65536 CALMASK 33085 11.42
B17 131072 SEGBOUNDARY 5629 1.94
B18 262144 SCI_2nd_TRAILING_ROW 3627 1.25
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 18635 6.43
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 35260 12.17
B29 536870912 SCI_TRAILING_ROW 32069 11.06
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 99 0.03
### 0 CLEAN_ZERO 158069 54.54
--------------------------------------------------------------
+++ 4294967295 SUM 317556 109.57
::: 524287 SAFE(B0-18) 205911 71.05
>>> 4294967295 TOTAL 289827 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileL5WIWk-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 289829
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 289828/289829
[ 2] XISreadExp version 1.6
| OK: 289828/289828
[ 3] XISreadEvent version 2.7
| OK: 289827/289828 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 289827/289827
[ 5] XISeditEventFits version 2.1
| OK: 289827/289827
GET: 289827
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
289828 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
289828 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
289828 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
289827 : XISputPixelQuality:ENTRY
289827 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
289827 : XISeditEventFits:ENTRY
289827 : 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 9 9 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 289827 289827 SINGLE
XIS:RAWX 4 4 289827 289827 SINGLE
XIS:RAWY 4 4 289827 579654 SINGLE
XIS:ACTX 4 4 289827 579654 SINGLE
XIS:ACTY 4 4 289827 579654 SINGLE
XIS:DETX 4 4 289827 289827 SINGLE
XIS:DETY 4 4 289827 289827 SINGLE
XIS:FOCX 4 4 289827 289827 SINGLE
XIS:FOCY 4 4 289827 289827 SINGLE
XIS:X 4 4 289827 289827 SINGLE
XIS:Y 4 4 289827 289827 SINGLE
XIS:STATUS 4 4 579654 289827 SINGLE
XIS:PHAS 36 36 289827 289827 SINGLE
XIS:PHANOCTI 4 4 289827 289827 SINGLE
XIS:PHA 4 4 289827 289827 SINGLE
XIS:PI 4 4 289827 289827 SINGLE
XIS:GRADE 4 4 289827 289827 SINGLE
XIS:P_OUTER_MOST 4 4 289827 289827 SINGLE
XIS:SUM_OUTER_MOST 4 4 289827 289827 SINGLE
XIS:AEDATE 4 4 289827 289827 FAMILY
XIS:EXPTIME 4 4 289827 289827 FAMILY
XIS:EXPTIME_AETIME 8 8 289827 289827 SINGLE
XIS:S_TIME 8 8 289827 289827 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 289827 289827 FAMILY
XIS:EVENT_SEQ_NO 4 4 289827 289827 SINGLE
XIS:TIME 8 8 289827 579654 SINGLE
XIS:EXP_CENT_AETIME 8 8 289827 289827 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 289829 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 0.224 0.139 0.363 3.39
[ 2] XISreadExp 0.101 0.129 0.230 2.15
[ 3] XISreadEvent 4.740 0.193 4.933 46.12
[ 4] XISputPixelQuality 0.378 0.162 0.540 5.05
[ 5] XISeditEventFits 4.104 0.509 4.613 43.13
(others) 0.011 0.006 0.017 0.16
--------------------------------------------------------------------------
TOTAL 9.559 1.138 10.696 100.00
-> xisputpixelquality successful on ae703029010xi0_2_3x3n066.sff.infile,f,a,"ae703029010xi0_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,"ae703029010xi0_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 ae703029010xi0_2_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_2_3x3n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae703029010xi0_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae703029010xi0_0.hk, S0_VDCHK18_CAL, nrows=5197
nvalid=4946 nrej=251 time=268006975.3 - 268190709.3 [s]
AE-temp: average=19.340 sigma=1.313 min=17.208 max=23.104 [degC]
Event... 1 (0)
... 0% ( 0 / 289827 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 28982 / 289827 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 57964 / 289827 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 86946 / 289827 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 115928 / 289827 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 144910 / 289827 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 173892 / 289827 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 202874 / 289827 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 231856 / 289827 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 260838 / 289827 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 289827 / 289827 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filekIFgvf-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 289829
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 289828/289829
[ 2] XISreadExp version 1.6
| OK: 289828/289828
[ 3] XISreadEvent version 2.7
| OK: 289827/289828 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 289827/289827
[ 5] XIStrailCorrection version 3.1
| OK: 289827/289827
[ 6] XISctiCorrection version 3.4
| OK: 289827/289827
[ 7] XISgrade version 3.3
| OK: 289827/289827
[ 8] XISpha2pi version 3.2
| OK: 289827/289827
[ 9] XISeditEventFits version 2.1
| OK: 289827/289827
GET: 289827
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
289828 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
289828 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
289828 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
289827 : XISpreparePHASCORR:ENTRY
289827 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
289827 : XIStrailCorrection:ENTRY
289827 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
289827 : XISctiCorrection:ENTRY
289827 : XISctiCorrection:OK
1 : XISgrade:BEGIN
289827 : XISgrade:ENTRY
289827 : XISgrade:OK
1 : XISpha2pi:BEGIN
289827 : XISpha2pi:ENTRY
289827 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
289827 : XISeditEventFits:ENTRY
289827 : 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 1159314 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 9 9 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 289827 1449135 SINGLE
XIS:RAWX 4 4 289827 869481 SINGLE
XIS:RAWY 4 4 289827 579654 SINGLE
XIS:ACTX 4 4 289827 289827 SINGLE
XIS:ACTY 4 4 289827 869481 SINGLE
XIS:DETX 4 4 289827 289827 SINGLE
XIS:DETY 4 4 289827 289827 SINGLE
XIS:FOCX 4 4 289827 289827 SINGLE
XIS:FOCY 4 4 289827 289827 SINGLE
XIS:X 4 4 289827 289827 SINGLE
XIS:Y 4 4 289827 289827 SINGLE
XIS:STATUS 4 4 289827 289827 SINGLE
XIS:PHAS 36 36 289827 579654 SINGLE
XIS:PHANOCTI 4 4 579654 289827 SINGLE
XIS:PHA 4 4 579654 289827 SINGLE
XIS:PI 4 4 579654 289827 SINGLE
XIS:GRADE 4 4 579654 289827 SINGLE
XIS:P_OUTER_MOST 4 4 289827 579654 SINGLE
XIS:SUM_OUTER_MOST 4 4 289827 579654 SINGLE
XIS:AEDATE 4 4 289827 289827 FAMILY
XIS:EXPTIME 4 4 289827 289827 FAMILY
XIS:EXPTIME_AETIME 8 8 289827 289827 SINGLE
XIS:S_TIME 8 8 289827 289827 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 289827 289827 FAMILY
XIS:EVENT_SEQ_NO 4 4 289827 289827 SINGLE
XIS:TIME 8 8 289827 1449135 SINGLE
XIS:EXP_CENT_AETIME 8 8 289827 289827 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 289829 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 579654 289827 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 289827 289827 SINGLE
XIS:PHASCORR 72 72 869481 869481 SINGLE
XIS:PHA:DOUBLE 8 8 289827 289827 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 0.300 0.131 0.431 1.46
[ 2] XISreadExp 0.094 0.132 0.226 0.77
[ 3] XISreadEvent 4.917 0.226 5.143 17.46
[ 4] XISpreparePHASCORR 0.241 0.159 0.400 1.36
[ 5] XIStrailCorrection 0.657 0.146 0.803 2.73
[ 6] XISctiCorrection 11.064 4.709 15.774 53.54
[ 7] XISgrade 1.022 0.127 1.149 3.90
[ 8] XISpha2pi 0.630 0.134 0.764 2.59
[ 9] XISeditEventFits 4.397 0.350 4.747 16.11
(others) 0.018 0.007 0.025 0.08
--------------------------------------------------------------------------
TOTAL 23.340 6.121 29.462 100.00
-> xispi successful on ae703029010xi0_2_3x3n066.sff.infile,f,a,"ae703029010xi0_2_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi0_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 ae703029010xi0_2_3x3n066.sff
OUTFILE ae703029010xi0_2_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi0_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 / 289827 events )
saturated frame, t=268103228.830 - 268103236.830 -72 (72/0) seg=1111
frame time jump, t=268104724.830 - 268107532.829 by 2808.000 s
frame time jump, t=268107676.829 - 268107940.829 by 264.000 s
frame time jump, t=268110484.829 - 268113516.828 by 3032.000 s
frame time jump, t=268113660.828 - 268113924.828 by 264.000 s
... 10% ( 28982 / 289827 events )
frame time jump, t=268116228.828 - 268119492.828 by 3264.000 s
frame time jump, t=268119628.828 - 268119892.828 by 264.000 s
saturated frame, t=268121964.827 - 268121972.827 1784 (505/2289) seg=1111
frame time jump, t=268121972.827 - 268121980.827 by 8.000 s
saturated frame, t=268121980.827 - 268121988.827 2490 (147/2637) seg=1111
frame time jump, t=268121988.827 - 268124068.827 by 2080.000 s
saturated frame, t=268124500.827 - 268124508.827 90 (157/247) seg=1111
frame time jump, t=268124508.827 - 268125308.827 by 800.000 s
... 20% ( 57964 / 289827 events )
frame time jump, t=268125452.827 - 268125716.827 by 264.000 s
saturated frame, t=268127708.827 - 268127716.827 55 (519/574) seg=1111
frame time jump, t=268127716.827 - 268127724.827 by 8.000 s
saturated frame, t=268127724.827 - 268127732.827 2613 (130/2743) seg=1111
frame time jump, t=268127732.827 - 268129828.826 by 2096.000 s
... 30% ( 86946 / 289827 events )
frame time jump, t=268133476.826 - 268135572.825 by 2096.000 s
frame time jump, t=268139236.825 - 268141324.825 by 2088.000 s
... 40% ( 115928 / 289827 events )
saturated frame, t=268144988.824 - 268144996.824 519 (315/834) seg=1111
frame time jump, t=268144996.824 - 268147020.824 by 2024.000 s
... 50% ( 144910 / 289827 events )
frame time jump, t=268150740.823 - 268152836.823 by 2096.000 s
... 60% ( 173892 / 289827 events )
frame time jump, t=268156484.823 - 268158580.822 by 2096.000 s
... 70% ( 202874 / 289827 events )
frame time jump, t=268162244.822 - 268164300.822 by 2056.000 s
... 80% ( 231856 / 289827 events )
frame time jump, t=268168004.821 - 268170092.821 by 2088.000 s
... 90% ( 260838 / 289827 events )
frame time jump, t=268173748.820 - 268175980.820 by 2232.000 s
... 100% ( 289827 / 289827 events )
XIScheckEventNo: GTI file 'ae703029010xi0_2_3x3n066.gti' created
N_FRAMES = 5271 / number of frames in the input event file
N_TESTED = 5271 / number of non-zero frames tested
N_PASSED = 5264 / number of frames passed the test
N_T_JUMP = 20 / number of frames detected time jump
N_SATURA = 7 / number of frames telemetry saturated
T_TESTED = 42168.000000 / exposure of non-zero frames tested
T_PASSED = 42112.000000 / exposure of frames passed the test
T_T_JUMP = 31927.995311 / loss of exposure due to time jump
T_SATURA = 56.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 5272
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 5271/5272
[ 2] XISreadExp version 1.6
| OK: 5271/5271
[ 3] XISreadEvent version 2.7 <------- LOOP: 289827
| OK: 289827/295098 -------> SKIP: 5271
[ 4] XIScheckEventNo version 1.2
| OK: 289827/289827
GET: 289827
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
5271 : XISreadFrame:ENTRY
5271 : XISreadFrame:OK
1 : XISreadExp:BEGIN
5271 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
295098 : XISreadEvent:ENTRY
295097 : XISreadEvent:OK
5271 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
289827 : XIScheckEventNo:ENTRY
289827 : 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 9 9 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 5271 295098 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 5271 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 5271 295098 SINGLE
XIS:FRAMES:S_TIME 8 8 5271 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 5271 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 5271 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 5271 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 5271 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 5271 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 5271 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 5271 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 5271 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 5271 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 5271 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 5271 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 5271 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 5271 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 5271 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 5271 5271 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 5271 0 SINGLE
XIS:FRAMES:BIAS 16 16 5271 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 5271 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 5271 0 SINGLE
XIS:FRAMES:AEDATE 4 4 5271 295098 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 5271 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 5271 289827 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 5271 5271 SINGLE
XIS:FRAMES:TIME 8 8 5271 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 289827 289827 SINGLE
XIS:RAWX 4 4 289827 0 SINGLE
XIS:RAWY 4 4 289827 0 SINGLE
XIS:ACTX 4 4 289827 0 SINGLE
XIS:ACTY 4 4 289827 0 SINGLE
XIS:DETX 4 4 289827 0 SINGLE
XIS:DETY 4 4 289827 0 SINGLE
XIS:FOCX 4 4 289827 0 SINGLE
XIS:FOCY 4 4 289827 0 SINGLE
XIS:X 4 4 289827 0 SINGLE
XIS:Y 4 4 289827 0 SINGLE
XIS:STATUS 4 4 289827 0 SINGLE
XIS:PHAS 36 36 289827 0 SINGLE
XIS:PHANOCTI 4 4 289827 0 SINGLE
XIS:PHA 4 4 289827 0 SINGLE
XIS:PI 4 4 289827 0 SINGLE
XIS:GRADE 4 4 289827 0 SINGLE
XIS:P_OUTER_MOST 4 4 289827 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 289827 0 SINGLE
XIS:AEDATE 4 4 289827 295097 FAMILY
XIS:EXPTIME 4 4 289827 295097 FAMILY
XIS:EXPTIME_AETIME 8 8 289827 0 SINGLE
XIS:S_TIME 8 8 289827 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 289827 295097 FAMILY
XIS:EVENT_SEQ_NO 4 4 289827 295097 SINGLE
XIS:TIME 8 8 289827 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 289827 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 1.230 0.022 1.252 15.32
[ 2] XISreadExp 0.004 0.003 0.007 0.09
[ 3] XISreadEvent 6.403 0.178 6.581 80.56
[ 4] XIScheckEventNo 0.162 0.148 0.310 3.79
(others) 0.011 0.008 0.019 0.23
--------------------------------------------------------------------------
TOTAL 7.810 0.359 8.169 100.00
-> xisgtigen successful on ae703029010xi0_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 ae703029010xi0_2_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi0_2_5x5n066.fff.infile,f,a,"ae703029010xi0_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,"ae703029010.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 ae703029010xi0_2_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_2_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 90251 events )
... 10% ( 9025 / 90251 events )
... 20% ( 18050 / 90251 events )
... 30% ( 27075 / 90251 events )
... 40% ( 36100 / 90251 events )
... 50% ( 45125 / 90251 events )
... 60% ( 54150 / 90251 events )
... 70% ( 63175 / 90251 events )
... 80% ( 72200 / 90251 events )
... 90% ( 81225 / 90251 events )
... 100% ( 90251 / 90251 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268177324.819799 / time start
TSTOP = 268190692.817888 / time stop
TELAPASE = 13367.998089 / elapsed time = TSTOP - TSTART
ONTIME = 9751.998701 / on time = sum of all GTIs
LIVETIME = 9751.998701 / on-source time corrected for CCD exposure
EXPOSURE = 9751.998701 / exposure time
xisEventFitsUtil: rename ./filecgcHRg-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 90253
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 90252/90253
[ 2] XISreadExp version 1.6
| OK: 90252/90252
[ 3] XISreadEvent version 2.7
| OK: 90251/90252 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 90251/90251
[ 5] XISeditEventFits version 2.1
| OK: 90251/90251
GET: 90251
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
90252 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
90252 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
90252 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
90251 : XIStime:ENTRY
90251 : XIStime:OK
1 : XISeditEventFits:BEGIN
90251 : XISeditEventFits:ENTRY
90251 : 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 9 9 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 90251 90251 SINGLE
XIS:RAWX 4 4 90251 90251 SINGLE
XIS:RAWY 4 4 90251 90251 SINGLE
XIS:ACTX 4 4 90251 90251 SINGLE
XIS:ACTY 4 4 90251 90251 SINGLE
XIS:DETX 4 4 90251 90251 SINGLE
XIS:DETY 4 4 90251 90251 SINGLE
XIS:FOCX 4 4 90251 90251 SINGLE
XIS:FOCY 4 4 90251 90251 SINGLE
XIS:X 4 4 90251 90251 SINGLE
XIS:Y 4 4 90251 90251 SINGLE
XIS:STATUS 4 4 90251 90251 SINGLE
XIS:PHAS 100 100 90251 90251 SINGLE
XIS:PHANOCTI 4 4 90251 90251 SINGLE
XIS:PHA 4 4 90251 90251 SINGLE
XIS:PI 4 4 90251 90251 SINGLE
XIS:GRADE 4 4 90251 90251 SINGLE
XIS:AEDATE 4 4 180502 90251 FAMILY
XIS:EXPTIME 4 4 90251 180502 FAMILY
XIS:EXPTIME_AETIME 8 8 180502 90251 SINGLE
XIS:S_TIME 8 8 90251 180502 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 90251 180502 FAMILY
XIS:EVENT_SEQ_NO 4 4 90251 90251 SINGLE
XIS:TIME 8 8 180502 90251 SINGLE
XIS:EXP_CENT_AETIME 8 8 180502 90251 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 90253 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 0.056 0.051 0.107 3.07
[ 2] XISreadExp 0.030 0.042 0.072 2.07
[ 3] XISreadEvent 1.391 0.078 1.469 42.15
[ 4] XIStime 0.304 0.047 0.351 10.07
[ 5] XISeditEventFits 1.349 0.120 1.469 42.15
(others) 0.012 0.005 0.017 0.49
--------------------------------------------------------------------------
TOTAL 3.142 0.343 3.484 100.00
-> xistime successful on ae703029010xi0_2_5x5n066.sff.infile,f,a,"ae703029010xi0_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,"ae703029010.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 ae703029010xi0_2_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_2_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 0
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN6 = 1 / minimum legal value for DETX
TLMAX6 = 1024 / maximum legal value for DETX
TCRPX6 = 512.5 / DETX reference pixel
TCRVL6 = 0.0 / DETX reference pixel value (mm)
TCDLT6 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC6 = 584.80 / DETX of the optical axis (pixel)
TLMIN7 = 1 / minimum legal value for DETY
TLMAX7 = 1024 / maximum legal value for DETY
TCRPX7 = 512.5 / DETY reference pixel
TCRVL7 = 0.0 / DETY reference pixel value (mm)
TCDLT7 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC7 = 497.50 / DETY of the optical axis (pixel)
TLMIN8 = 1 / minimum legal value for FOCX
TLMAX8 = 1536 / maximum legal value for FOCX
TCRPX8 = 768.5 / FOCX reference pixel
TCRVL8 = 0.00000 / FOCX reference pixel value (deg)
TCDLT8 = -0.0002895 / FOCX pixel scale (deg/pixel)
OPTIC8 = 844.30 / FOCX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for FOCY
TLMAX9 = 1536 / maximum legal value for FOCY
TCRPX9 = 768.5 / FOCY reference pixel
TCRVL9 = 0.00000 / FOCY reference pixel value (deg)
TCDLT9 = 0.0002895 / FOCY pixel scale (deg/pixel)
OPTIC9 = 765.00 / FOCY of the optical axis (pixel)
TLMIN10 = 1 / minimum legal value for X
TLMAX10 = 1536 / maximum legal value for X
TCRPX10 = 768.5 / X reference pixel
TCRVL10 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 795.37 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 839.38 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 90251 events )
... 10% ( 9025 / 90251 events )
... 20% ( 18050 / 90251 events )
... 30% ( 27075 / 90251 events )
... 40% ( 36100 / 90251 events )
... 50% ( 45125 / 90251 events )
... 60% ( 54150 / 90251 events )
... 70% ( 63175 / 90251 events )
... 80% ( 72200 / 90251 events )
... 90% ( 81225 / 90251 events )
... 100% ( 90251 / 90251 events )
xisEventFitsUtil: rename ./filei4zoS3-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 90253
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 90252/90253
[ 2] XISreadExp version 1.6
| OK: 90252/90252
[ 3] XISreadEvent version 2.7
| OK: 90251/90252 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 90251/90251
[ 5] XISeditEventFits version 2.1
| OK: 90251/90251
GET: 90251
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
90252 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
90252 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
90252 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
90251 : XIScoord:ENTRY
90251 : XIScoord:OK
1 : XISeditEventFits:BEGIN
90251 : XISeditEventFits:ENTRY
90251 : 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 9 9 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 90251 180502 SINGLE
XIS:RAWX 4 4 90251 180502 SINGLE
XIS:RAWY 4 4 90251 180502 SINGLE
XIS:ACTX 4 4 180502 90251 SINGLE
XIS:ACTY 4 4 180502 90251 SINGLE
XIS:DETX 4 4 180502 90251 SINGLE
XIS:DETY 4 4 180502 90251 SINGLE
XIS:FOCX 4 4 180502 90251 SINGLE
XIS:FOCY 4 4 180502 90251 SINGLE
XIS:X 4 4 180502 90251 SINGLE
XIS:Y 4 4 180502 90251 SINGLE
XIS:STATUS 4 4 90251 90251 SINGLE
XIS:PHAS 100 100 90251 90251 SINGLE
XIS:PHANOCTI 4 4 90251 90251 SINGLE
XIS:PHA 4 4 90251 90251 SINGLE
XIS:PI 4 4 90251 90251 SINGLE
XIS:GRADE 4 4 90251 90251 SINGLE
XIS:AEDATE 4 4 90251 90251 FAMILY
XIS:EXPTIME 4 4 90251 90251 FAMILY
XIS:EXPTIME_AETIME 8 8 90251 90251 SINGLE
XIS:S_TIME 8 8 90251 90251 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 90251 90251 FAMILY
XIS:EVENT_SEQ_NO 4 4 90251 90251 SINGLE
XIS:TIME 8 8 90251 180502 SINGLE
XIS:EXP_CENT_AETIME 8 8 90251 90251 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 90253 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 0.097 0.042 0.139 3.58
[ 2] XISreadExp 0.020 0.042 0.062 1.60
[ 3] XISreadEvent 1.348 0.110 1.458 37.51
[ 4] XIScoord 0.625 0.090 0.715 18.39
[ 5] XISeditEventFits 1.333 0.158 1.491 38.36
(others) 0.015 0.007 0.022 0.57
--------------------------------------------------------------------------
TOTAL 3.437 0.449 3.886 100.00
-> xiscoord successful on ae703029010xi0_2_5x5n066.sff.infile,f,a,"ae703029010xi0_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 ae703029010xi0_2_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_2_5x5n066.sff'
ANL: *** XISputPixelQuality show parameter ***
ENABLE_SCIPIXQ YES
BADCOULMFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_badcolum_20070418.fits' (CALDB)
CALMASKFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_calmask_20060731.fits' (CALDB)
Event... 1 (0)
... 0% ( 0 / 90251 events )
... 10% ( 9025 / 90251 events )
... 20% ( 18050 / 90251 events )
... 30% ( 27075 / 90251 events )
... 40% ( 36100 / 90251 events )
... 50% ( 45125 / 90251 events )
... 60% ( 54150 / 90251 events )
... 70% ( 63175 / 90251 events )
... 80% ( 72200 / 90251 events )
... 90% ( 81225 / 90251 events )
... 100% ( 90251 / 90251 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 1243 1.38
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 2154 2.39
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 686 0.76
B8 256 1PIX_FROM_SEGBOUNDARY 524 0.58
B9 512 SCI_3rd_TRAILING_ROW 764 0.85
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 2328 2.58
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 893 0.99
B16 65536 CALMASK 7843 8.69
B17 131072 SEGBOUNDARY 1434 1.59
B18 262144 SCI_2nd_TRAILING_ROW 787 0.87
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 7014 7.77
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 22205 24.60
B29 536870912 SCI_TRAILING_ROW 20113 22.29
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 28 0.03
### 0 CLEAN_ZERO 32792 36.33
--------------------------------------------------------------
+++ 4294967295 SUM 100808 111.70
::: 524287 SAFE(B0-18) 42886 47.52
>>> 4294967295 TOTAL 90251 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileeRH3CU-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 90253
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 90252/90253
[ 2] XISreadExp version 1.6
| OK: 90252/90252
[ 3] XISreadEvent version 2.7
| OK: 90251/90252 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 90251/90251
[ 5] XISeditEventFits version 2.1
| OK: 90251/90251
GET: 90251
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
90252 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
90252 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
90252 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
90251 : XISputPixelQuality:ENTRY
90251 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
90251 : XISeditEventFits:ENTRY
90251 : 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 9 9 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 90251 90251 SINGLE
XIS:RAWX 4 4 90251 90251 SINGLE
XIS:RAWY 4 4 90251 180502 SINGLE
XIS:ACTX 4 4 90251 180502 SINGLE
XIS:ACTY 4 4 90251 180502 SINGLE
XIS:DETX 4 4 90251 90251 SINGLE
XIS:DETY 4 4 90251 90251 SINGLE
XIS:FOCX 4 4 90251 90251 SINGLE
XIS:FOCY 4 4 90251 90251 SINGLE
XIS:X 4 4 90251 90251 SINGLE
XIS:Y 4 4 90251 90251 SINGLE
XIS:STATUS 4 4 180502 90251 SINGLE
XIS:PHAS 100 100 90251 90251 SINGLE
XIS:PHANOCTI 4 4 90251 90251 SINGLE
XIS:PHA 4 4 90251 90251 SINGLE
XIS:PI 4 4 90251 90251 SINGLE
XIS:GRADE 4 4 90251 90251 SINGLE
XIS:AEDATE 4 4 90251 90251 FAMILY
XIS:EXPTIME 4 4 90251 90251 FAMILY
XIS:EXPTIME_AETIME 8 8 90251 90251 SINGLE
XIS:S_TIME 8 8 90251 90251 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 90251 90251 FAMILY
XIS:EVENT_SEQ_NO 4 4 90251 90251 SINGLE
XIS:TIME 8 8 90251 180502 SINGLE
XIS:EXP_CENT_AETIME 8 8 90251 90251 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 90253 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 0.062 0.037 0.099 2.96
[ 2] XISreadExp 0.022 0.048 0.070 2.09
[ 3] XISreadEvent 1.366 0.062 1.428 42.73
[ 4] XISputPixelQuality 0.186 0.050 0.236 7.06
[ 5] XISeditEventFits 1.312 0.180 1.492 44.64
(others) 0.011 0.006 0.017 0.51
--------------------------------------------------------------------------
TOTAL 2.959 0.383 3.341 100.00
-> xisputpixelquality successful on ae703029010xi0_2_5x5n066.sff.infile,f,a,"ae703029010xi0_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,"ae703029010xi0_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 ae703029010xi0_2_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_2_5x5n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae703029010xi0_0.hk'
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading GAIN-AETEMP at 1-th row
reading GAIN_NORMAL_SCI at 1-th row
reading ae703029010xi0_0.hk, S0_VDCHK18_CAL, nrows=5197
nvalid=4946 nrej=251 time=268006975.3 - 268190709.3 [s]
AE-temp: average=19.340 sigma=1.313 min=17.208 max=23.104 [degC]
Event... 1 (0)
... 0% ( 0 / 90251 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 9025 / 90251 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 18050 / 90251 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 27075 / 90251 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 36100 / 90251 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 45125 / 90251 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 54150 / 90251 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 63175 / 90251 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 72200 / 90251 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 81225 / 90251 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 90251 / 90251 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileMF2Muz-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 90253
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 90252/90253
[ 2] XISreadExp version 1.6
| OK: 90252/90252
[ 3] XISreadEvent version 2.7
| OK: 90251/90252 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 90251/90251
[ 5] XIStrailCorrection version 3.1
| OK: 90251/90251
[ 6] XISctiCorrection version 3.4
| OK: 90251/90251
[ 7] XISgrade version 3.3
| OK: 90251/90251
[ 8] XISpha2pi version 3.2
| OK: 90251/90251
[ 9] XISeditEventFits version 2.1
| OK: 90251/90251
GET: 90251
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
90252 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
90252 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
90252 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
90251 : XISpreparePHASCORR:ENTRY
90251 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
90251 : XIStrailCorrection:ENTRY
90251 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
90251 : XISctiCorrection:ENTRY
90251 : XISctiCorrection:OK
1 : XISgrade:BEGIN
90251 : XISgrade:ENTRY
90251 : XISgrade:OK
1 : XISpha2pi:BEGIN
90251 : XISpha2pi:ENTRY
90251 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
90251 : XISeditEventFits:ENTRY
90251 : 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 361010 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 9 9 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 90251 451255 SINGLE
XIS:RAWX 4 4 90251 270753 SINGLE
XIS:RAWY 4 4 90251 180502 SINGLE
XIS:ACTX 4 4 90251 90251 SINGLE
XIS:ACTY 4 4 90251 270753 SINGLE
XIS:DETX 4 4 90251 90251 SINGLE
XIS:DETY 4 4 90251 90251 SINGLE
XIS:FOCX 4 4 90251 90251 SINGLE
XIS:FOCY 4 4 90251 90251 SINGLE
XIS:X 4 4 90251 90251 SINGLE
XIS:Y 4 4 90251 90251 SINGLE
XIS:STATUS 4 4 90251 90251 SINGLE
XIS:PHAS 100 100 90251 180502 SINGLE
XIS:PHANOCTI 4 4 180502 90251 SINGLE
XIS:PHA 4 4 180502 90251 SINGLE
XIS:PI 4 4 180502 90251 SINGLE
XIS:GRADE 4 4 180502 90251 SINGLE
XIS:AEDATE 4 4 90251 90251 FAMILY
XIS:EXPTIME 4 4 90251 90251 FAMILY
XIS:EXPTIME_AETIME 8 8 90251 90251 SINGLE
XIS:S_TIME 8 8 90251 90251 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 90251 90251 FAMILY
XIS:EVENT_SEQ_NO 4 4 90251 90251 SINGLE
XIS:TIME 8 8 90251 451255 SINGLE
XIS:EXP_CENT_AETIME 8 8 90251 90251 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 90253 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 180502 90251 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 90251 90251 SINGLE
XIS:PHASCORR 200 200 270753 270753 SINGLE
XIS:PHA:DOUBLE 8 8 90251 90251 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 0.076 0.050 0.126 1.33
[ 2] XISreadExp 0.021 0.037 0.058 0.61
[ 3] XISreadEvent 1.471 0.066 1.537 16.22
[ 4] XISpreparePHASCORR 0.087 0.042 0.129 1.36
[ 5] XIStrailCorrection 0.182 0.042 0.224 2.36
[ 6] XISctiCorrection 4.105 1.139 5.244 55.35
[ 7] XISgrade 0.333 0.039 0.372 3.93
[ 8] XISpha2pi 0.249 0.052 0.301 3.18
[ 9] XISeditEventFits 1.323 0.135 1.458 15.39
(others) 0.019 0.007 0.026 0.27
--------------------------------------------------------------------------
TOTAL 7.866 1.609 9.475 100.00
-> xispi successful on ae703029010xi0_2_5x5n066.sff.infile,f,a,"ae703029010xi0_2_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi0_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 ae703029010xi0_2_5x5n066.sff
OUTFILE ae703029010xi0_2_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi0_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 / 90251 events )
... 10% ( 9025 / 90251 events )
saturated frame, t=268179524.820 - 268179532.820 1573 (832/2405) seg=1111
saturated frame, t=268179532.820 - 268179540.820 2286 (813/3099) seg=1111
saturated frame, t=268179540.820 - 268179548.820 2027 (808/2835) seg=1111
saturated frame, t=268179548.820 - 268179556.820 2161 (813/2974) seg=1111
... 20% ( 18050 / 90251 events )
saturated frame, t=268179556.820 - 268179564.820 2048 (810/2858) seg=1111
saturated frame, t=268179564.820 - 268179572.820 2053 (811/2864) seg=1111
saturated frame, t=268179572.820 - 268179580.820 2080 (813/2893) seg=1111
saturated frame, t=268179580.820 - 268179588.820 1952 (808/2760) seg=1111
saturated frame, t=268179588.820 - 268179596.820 1960 (821/2781) seg=1111
saturated frame, t=268179596.820 - 268179604.820 2098 (827/2925) seg=1111
saturated frame, t=268179604.820 - 268179612.820 2073 (827/2900) seg=1111
saturated frame, t=268179612.820 - 268179620.820 2088 (828/2916) seg=1111
saturated frame, t=268179620.820 - 268179628.820 1301 (843/2144) seg=1111
saturated frame, t=268179628.820 - 268179636.820 2110 (826/2936) seg=1111
saturated frame, t=268179636.820 - 268179644.820 2041 (825/2866) seg=1111
... 30% ( 27075 / 90251 events )
saturated frame, t=268179644.820 - 268179652.820 2106 (814/2920) seg=1111
saturated frame, t=268179652.820 - 268179660.820 2059 (823/2882) seg=1111
saturated frame, t=268179660.820 - 268179668.820 2117 (817/2934) seg=1111
saturated frame, t=268179668.820 - 268179676.820 2053 (823/2876) seg=1111
saturated frame, t=268179676.820 - 268179684.820 2060 (819/2879) seg=1111
saturated frame, t=268179700.820 - 268179708.820 1687 (826/2513) seg=1111
saturated frame, t=268179708.820 - 268179716.820 2013 (817/2830) seg=1111
saturated frame, t=268179724.819 - 268179732.819 2213 (812/3025) seg=1111
saturated frame, t=268179732.819 - 268179740.819 2147 (810/2957) seg=1111
... 40% ( 36100 / 90251 events )
saturated frame, t=268179740.819 - 268179748.819 2069 (810/2879) seg=1111
frame time jump, t=268180108.819 - 268181676.819 by 1568.000 s
frame time jump, t=268181820.819 - 268182084.819 by 264.000 s
... 50% ( 45125 / 90251 events )
... 60% ( 54150 / 90251 events )
... 70% ( 63175 / 90251 events )
saturated frame, t=268185412.819 - 268185420.819 1328 (833/2161) seg=1111
saturated frame, t=268185436.819 - 268185444.819 1145 (835/1980) seg=1111
saturated frame, t=268185444.819 - 268185452.819 854 (835/1689) seg=1111
saturated frame, t=268185452.819 - 268185460.819 1474 (831/2305) seg=1111
saturated frame, t=268185516.819 - 268185524.819 1388 (829/2217) seg=1111
... 80% ( 72200 / 90251 events )
frame time jump, t=268186308.819 - 268187828.818 by 1520.000 s
frame time jump, t=268187972.818 - 268188236.818 by 264.000 s
... 90% ( 81225 / 90251 events )
... 100% ( 90251 / 90251 events )
XIScheckEventNo: GTI file 'ae703029010xi0_2_5x5n066.gti' created
N_FRAMES = 1219 / number of frames in the input event file
N_TESTED = 1219 / number of non-zero frames tested
N_PASSED = 1189 / number of frames passed the test
N_T_JUMP = 4 / number of frames detected time jump
N_SATURA = 30 / number of frames telemetry saturated
T_TESTED = 9752.000000 / exposure of non-zero frames tested
T_PASSED = 9512.000000 / exposure of frames passed the test
T_T_JUMP = 3615.999388 / loss of exposure due to time jump
T_SATURA = 240.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1220
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 1219/1220
[ 2] XISreadExp version 1.6
| OK: 1219/1219
[ 3] XISreadEvent version 2.7 <------- LOOP: 90251
| OK: 90251/91470 -------> SKIP: 1219
[ 4] XIScheckEventNo version 1.2
| OK: 90251/90251
GET: 90251
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
1219 : XISreadFrame:ENTRY
1219 : XISreadFrame:OK
1 : XISreadExp:BEGIN
1219 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
91470 : XISreadEvent:ENTRY
91469 : XISreadEvent:OK
1219 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
90251 : XIScheckEventNo:ENTRY
90251 : 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 9 9 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 1219 91470 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 1219 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 1219 91470 SINGLE
XIS:FRAMES:S_TIME 8 8 1219 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 1219 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 1219 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 1219 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 1219 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 1219 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 1219 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 1219 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 1219 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 1219 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 1219 1219 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 1219 0 SINGLE
XIS:FRAMES:BIAS 16 16 1219 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 1219 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 1219 0 SINGLE
XIS:FRAMES:AEDATE 4 4 1219 91470 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 1219 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 1219 90251 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 1219 1219 SINGLE
XIS:FRAMES:TIME 8 8 1219 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 90251 90251 SINGLE
XIS:RAWX 4 4 90251 0 SINGLE
XIS:RAWY 4 4 90251 0 SINGLE
XIS:ACTX 4 4 90251 0 SINGLE
XIS:ACTY 4 4 90251 0 SINGLE
XIS:DETX 4 4 90251 0 SINGLE
XIS:DETY 4 4 90251 0 SINGLE
XIS:FOCX 4 4 90251 0 SINGLE
XIS:FOCY 4 4 90251 0 SINGLE
XIS:X 4 4 90251 0 SINGLE
XIS:Y 4 4 90251 0 SINGLE
XIS:STATUS 4 4 90251 0 SINGLE
XIS:PHAS 100 100 90251 0 SINGLE
XIS:PHANOCTI 4 4 90251 0 SINGLE
XIS:PHA 4 4 90251 0 SINGLE
XIS:PI 4 4 90251 0 SINGLE
XIS:GRADE 4 4 90251 0 SINGLE
XIS:AEDATE 4 4 90251 91469 FAMILY
XIS:EXPTIME 4 4 90251 91469 FAMILY
XIS:EXPTIME_AETIME 8 8 90251 0 SINGLE
XIS:S_TIME 8 8 90251 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 90251 91469 FAMILY
XIS:EVENT_SEQ_NO 4 4 90251 91469 SINGLE
XIS:TIME 8 8 90251 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 90251 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 0.321 0.002 0.323 14.27
[ 2] XISreadExp 0.003 0.002 0.005 0.22
[ 3] XISreadEvent 1.765 0.061 1.826 80.65
[ 4] XIScheckEventNo 0.044 0.046 0.090 3.98
(others) 0.015 0.005 0.020 0.88
--------------------------------------------------------------------------
TOTAL 2.148 0.116 2.264 100.00
-> xisgtigen successful on ae703029010xi0_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 ae703029010xi1_1_3x3n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi1_1_3x3n069.fff.infile,f,a,"ae703029010xi1_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,"ae703029010.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 ae703029010xi1_1_3x3n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_1_3x3n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 600457 events )
... 10% ( 60045 / 600457 events )
Event... 100001 (100000)
... 20% ( 120090 / 600457 events )
... 30% ( 180135 / 600457 events )
Event... 200001 (200000)
... 40% ( 240180 / 600457 events )
Event... 300001 (300000)
... 50% ( 300225 / 600457 events )
... 60% ( 360270 / 600457 events )
Event... 400001 (400000)
... 70% ( 420315 / 600457 events )
... 80% ( 480360 / 600457 events )
Event... 500001 (500000)
... 90% ( 540405 / 600457 events )
Event... 600001 (600000)
... 100% ( 600457 / 600457 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268023836.840621 / time start
TSTOP = 268103228.829844 / time stop
TELAPASE = 79391.989223 / elapsed time = TSTOP - TSTART
ONTIME = 44239.994484 / on time = sum of all GTIs
LIVETIME = 44239.994484 / on-source time corrected for CCD exposure
EXPOSURE = 44239.994484 / exposure time
xisEventFitsUtil: rename ./file9r40O0-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 600459
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 600458/600459
[ 2] XISreadExp version 1.6
| OK: 600458/600458
[ 3] XISreadEvent version 2.7
| OK: 600457/600458 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 600457/600457
[ 5] XISeditEventFits version 2.1
| OK: 600457/600457
GET: 600457
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
600458 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
600458 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
600458 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
600457 : XIStime:ENTRY
600457 : XIStime:OK
1 : XISeditEventFits:BEGIN
600457 : XISeditEventFits:ENTRY
600457 : 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 9 9 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 600457 600457 SINGLE
XIS:RAWX 4 4 600457 600457 SINGLE
XIS:RAWY 4 4 600457 600457 SINGLE
XIS:ACTX 4 4 600457 600457 SINGLE
XIS:ACTY 4 4 600457 600457 SINGLE
XIS:DETX 4 4 600457 600457 SINGLE
XIS:DETY 4 4 600457 600457 SINGLE
XIS:FOCX 4 4 600457 600457 SINGLE
XIS:FOCY 4 4 600457 600457 SINGLE
XIS:X 4 4 600457 600457 SINGLE
XIS:Y 4 4 600457 600457 SINGLE
XIS:STATUS 4 4 600457 600457 SINGLE
XIS:PHAS 36 36 600457 600457 SINGLE
XIS:PHANOCTI 4 4 600457 600457 SINGLE
XIS:PHA 4 4 600457 600457 SINGLE
XIS:PI 4 4 600457 600457 SINGLE
XIS:GRADE 4 4 600457 600457 SINGLE
XIS:P_OUTER_MOST 4 4 600457 600457 SINGLE
XIS:SUM_OUTER_MOST 4 4 600457 600457 SINGLE
XIS:AEDATE 4 4 1200914 600457 FAMILY
XIS:EXPTIME 4 4 600457 1200914 FAMILY
XIS:EXPTIME_AETIME 8 8 1200914 600457 SINGLE
XIS:S_TIME 8 8 600457 1200914 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 600457 1200914 FAMILY
XIS:EVENT_SEQ_NO 4 4 600457 600457 SINGLE
XIS:TIME 8 8 1200914 600457 SINGLE
XIS:EXP_CENT_AETIME 8 8 1200914 600457 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 600459 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 0.392 0.289 0.681 2.98
[ 2] XISreadExp 0.171 0.291 0.462 2.02
[ 3] XISreadEvent 9.857 0.624 10.481 45.84
[ 4] XIStime 1.239 0.327 1.566 6.85
[ 5] XISeditEventFits 8.977 0.681 9.658 42.24
(others) 0.012 0.004 0.016 0.07
--------------------------------------------------------------------------
TOTAL 20.648 2.216 22.864 100.00
-> xistime successful on ae703029010xi1_1_3x3n069.sff.infile,f,a,"ae703029010xi1_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,"ae703029010.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 ae703029010xi1_1_3x3n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_1_3x3n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 812.29 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 794.92 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 600457 events )
... 10% ( 60045 / 600457 events )
Event... 100001 (100000)
... 20% ( 120090 / 600457 events )
... 30% ( 180135 / 600457 events )
Event... 200001 (200000)
... 40% ( 240180 / 600457 events )
Event... 300001 (300000)
... 50% ( 300225 / 600457 events )
... 60% ( 360270 / 600457 events )
Event... 400001 (400000)
... 70% ( 420315 / 600457 events )
... 80% ( 480360 / 600457 events )
Event... 500001 (500000)
... 90% ( 540405 / 600457 events )
Event... 600001 (600000)
... 100% ( 600457 / 600457 events )
xisEventFitsUtil: rename ./fileMICEqv-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 600459
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 600458/600459
[ 2] XISreadExp version 1.6
| OK: 600458/600458
[ 3] XISreadEvent version 2.7
| OK: 600457/600458 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 600457/600457
[ 5] XISeditEventFits version 2.1
| OK: 600457/600457
GET: 600457
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
600458 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
600458 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
600458 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
600457 : XIScoord:ENTRY
600457 : XIScoord:OK
1 : XISeditEventFits:BEGIN
600457 : XISeditEventFits:ENTRY
600457 : 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 9 9 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 600457 1200914 SINGLE
XIS:RAWX 4 4 600457 1200914 SINGLE
XIS:RAWY 4 4 600457 1200914 SINGLE
XIS:ACTX 4 4 1200914 600457 SINGLE
XIS:ACTY 4 4 1200914 600457 SINGLE
XIS:DETX 4 4 1200914 600457 SINGLE
XIS:DETY 4 4 1200914 600457 SINGLE
XIS:FOCX 4 4 1200914 600457 SINGLE
XIS:FOCY 4 4 1200914 600457 SINGLE
XIS:X 4 4 1200914 600457 SINGLE
XIS:Y 4 4 1200914 600457 SINGLE
XIS:STATUS 4 4 600457 600457 SINGLE
XIS:PHAS 36 36 600457 600457 SINGLE
XIS:PHANOCTI 4 4 600457 600457 SINGLE
XIS:PHA 4 4 600457 600457 SINGLE
XIS:PI 4 4 600457 600457 SINGLE
XIS:GRADE 4 4 600457 600457 SINGLE
XIS:P_OUTER_MOST 4 4 600457 600457 SINGLE
XIS:SUM_OUTER_MOST 4 4 600457 600457 SINGLE
XIS:AEDATE 4 4 600457 600457 FAMILY
XIS:EXPTIME 4 4 600457 600457 FAMILY
XIS:EXPTIME_AETIME 8 8 600457 600457 SINGLE
XIS:S_TIME 8 8 600457 600457 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 600457 600457 FAMILY
XIS:EVENT_SEQ_NO 4 4 600457 600457 SINGLE
XIS:TIME 8 8 600457 1200914 SINGLE
XIS:EXP_CENT_AETIME 8 8 600457 600457 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 600459 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 0.450 0.320 0.770 2.94
[ 2] XISreadExp 0.180 0.350 0.530 2.02
[ 3] XISreadEvent 9.924 0.488 10.412 39.74
[ 4] XIScoord 4.145 0.386 4.531 17.30
[ 5] XISeditEventFits 9.102 0.832 9.934 37.92
(others) 0.015 0.007 0.022 0.08
--------------------------------------------------------------------------
TOTAL 23.816 2.383 26.199 100.00
-> xiscoord successful on ae703029010xi1_1_3x3n069.sff.infile,f,a,"ae703029010xi1_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 ae703029010xi1_1_3x3n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_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 / 600457 events )
... 10% ( 60045 / 600457 events )
Event... 100001 (100000)
... 20% ( 120090 / 600457 events )
... 30% ( 180135 / 600457 events )
Event... 200001 (200000)
... 40% ( 240180 / 600457 events )
Event... 300001 (300000)
... 50% ( 300225 / 600457 events )
... 60% ( 360270 / 600457 events )
Event... 400001 (400000)
... 70% ( 420315 / 600457 events )
... 80% ( 480360 / 600457 events )
Event... 500001 (500000)
... 90% ( 540405 / 600457 events )
Event... 600001 (600000)
... 100% ( 600457 / 600457 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 7235 1.20
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 17865 2.98
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 1684 0.28
B8 256 1PIX_FROM_SEGBOUNDARY 2706 0.45
B9 512 SCI_3rd_TRAILING_ROW 10628 1.77
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 24571 4.09
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 7371 1.23
B16 65536 CALMASK 61336 10.21
B17 131072 SEGBOUNDARY 5909 0.98
B18 262144 SCI_2nd_TRAILING_ROW 10735 1.79
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 64911 10.81
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 11566 1.93
B29 536870912 SCI_TRAILING_ROW 105766 17.61
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 33 0.01
### 0 CLEAN_ZERO 344147 57.31
--------------------------------------------------------------
+++ 4294967295 SUM 676463 112.66
::: 524287 SAFE(B0-18) 436764 72.74
>>> 4294967295 TOTAL 600457 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileCf3Z5P-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 600459
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 600458/600459
[ 2] XISreadExp version 1.6
| OK: 600458/600458
[ 3] XISreadEvent version 2.7
| OK: 600457/600458 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 600457/600457
[ 5] XISeditEventFits version 2.1
| OK: 600457/600457
GET: 600457
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
600458 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
600458 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
600458 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
600457 : XISputPixelQuality:ENTRY
600457 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
600457 : XISeditEventFits:ENTRY
600457 : 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 9 9 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 600457 600457 SINGLE
XIS:RAWX 4 4 600457 600457 SINGLE
XIS:RAWY 4 4 600457 1200914 SINGLE
XIS:ACTX 4 4 600457 1200914 SINGLE
XIS:ACTY 4 4 600457 1200914 SINGLE
XIS:DETX 4 4 600457 600457 SINGLE
XIS:DETY 4 4 600457 600457 SINGLE
XIS:FOCX 4 4 600457 600457 SINGLE
XIS:FOCY 4 4 600457 600457 SINGLE
XIS:X 4 4 600457 600457 SINGLE
XIS:Y 4 4 600457 600457 SINGLE
XIS:STATUS 4 4 1200914 600457 SINGLE
XIS:PHAS 36 36 600457 600457 SINGLE
XIS:PHANOCTI 4 4 600457 600457 SINGLE
XIS:PHA 4 4 600457 600457 SINGLE
XIS:PI 4 4 600457 600457 SINGLE
XIS:GRADE 4 4 600457 600457 SINGLE
XIS:P_OUTER_MOST 4 4 600457 600457 SINGLE
XIS:SUM_OUTER_MOST 4 4 600457 600457 SINGLE
XIS:AEDATE 4 4 600457 600457 FAMILY
XIS:EXPTIME 4 4 600457 600457 FAMILY
XIS:EXPTIME_AETIME 8 8 600457 600457 SINGLE
XIS:S_TIME 8 8 600457 600457 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 600457 600457 FAMILY
XIS:EVENT_SEQ_NO 4 4 600457 600457 SINGLE
XIS:TIME 8 8 600457 1200914 SINGLE
XIS:EXP_CENT_AETIME 8 8 600457 600457 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 600459 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 0.416 0.311 0.727 3.31
[ 2] XISreadExp 0.153 0.334 0.487 2.21
[ 3] XISreadEvent 9.724 0.362 10.085 45.86
[ 4] XISputPixelQuality 0.660 0.276 0.936 4.26
[ 5] XISeditEventFits 8.811 0.929 9.740 44.29
(others) 0.013 0.005 0.018 0.08
--------------------------------------------------------------------------
TOTAL 19.776 2.217 21.993 100.00
-> xisputpixelquality successful on ae703029010xi1_1_3x3n069.sff.infile,f,a,"ae703029010xi1_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,"ae703029010xi1_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 ae703029010xi1_1_3x3n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_1_3x3n069.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-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 'ae703029010xi1_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 ae703029010xi1_0.hk, S1_VDCHK18_CAL, nrows=5196
nvalid=4939 nrej=257 time=268006979.3 - 268190697.3 [s]
AE-temp: average=18.929 sigma=1.294 min=16.842 max=22.656 [degC]
Event... 1 (0)
... 0% ( 0 / 600457 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 60045 / 600457 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 120090 / 600457 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 180135 / 600457 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 240180 / 600457 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 300225 / 600457 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 360270 / 600457 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 400001 (400000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 420315 / 600457 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 480360 / 600457 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 500001 (500000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 540405 / 600457 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 600001 (600000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 600457 / 600457 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileZXi17k-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 600459
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 600458/600459
[ 2] XISreadExp version 1.6
| OK: 600458/600458
[ 3] XISreadEvent version 2.7
| OK: 600457/600458 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 600457/600457
[ 5] XIStrailCorrection version 3.1
| OK: 600457/600457
[ 6] XISctiCorrection version 3.4
| OK: 600457/600457
[ 7] XISgrade version 3.3
| OK: 600457/600457
[ 8] XISpha2pi version 3.2
| OK: 600457/600457
[ 9] XISeditEventFits version 2.1
| OK: 600457/600457
GET: 600457
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
600458 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
600458 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
600458 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
600457 : XISpreparePHASCORR:ENTRY
600457 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
600457 : XIStrailCorrection:ENTRY
600457 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
600457 : XISctiCorrection:ENTRY
600457 : XISctiCorrection:OK
1 : XISgrade:BEGIN
600457 : XISgrade:ENTRY
600457 : XISgrade:OK
1 : XISpha2pi:BEGIN
600457 : XISpha2pi:ENTRY
600457 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
600457 : XISeditEventFits:ENTRY
600457 : 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 2401834 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 9 9 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 600457 3002285 SINGLE
XIS:RAWX 4 4 600457 1801371 SINGLE
XIS:RAWY 4 4 600457 1200914 SINGLE
XIS:ACTX 4 4 600457 600457 SINGLE
XIS:ACTY 4 4 600457 1801371 SINGLE
XIS:DETX 4 4 600457 600457 SINGLE
XIS:DETY 4 4 600457 600457 SINGLE
XIS:FOCX 4 4 600457 600457 SINGLE
XIS:FOCY 4 4 600457 600457 SINGLE
XIS:X 4 4 600457 600457 SINGLE
XIS:Y 4 4 600457 600457 SINGLE
XIS:STATUS 4 4 600457 600457 SINGLE
XIS:PHAS 36 36 600457 1200914 SINGLE
XIS:PHANOCTI 4 4 1200914 600457 SINGLE
XIS:PHA 4 4 1200914 600457 SINGLE
XIS:PI 4 4 1200914 600457 SINGLE
XIS:GRADE 4 4 1200914 600457 SINGLE
XIS:P_OUTER_MOST 4 4 600457 1200914 SINGLE
XIS:SUM_OUTER_MOST 4 4 600457 1200914 SINGLE
XIS:AEDATE 4 4 600457 600457 FAMILY
XIS:EXPTIME 4 4 600457 600457 FAMILY
XIS:EXPTIME_AETIME 8 8 600457 600457 SINGLE
XIS:S_TIME 8 8 600457 600457 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 600457 600457 FAMILY
XIS:EVENT_SEQ_NO 4 4 600457 600457 SINGLE
XIS:TIME 8 8 600457 3002285 SINGLE
XIS:EXP_CENT_AETIME 8 8 600457 600457 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 600459 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 1200914 600457 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 600457 600457 SINGLE
XIS:PHASCORR 72 72 1801371 1801371 SINGLE
XIS:PHA:DOUBLE 8 8 600457 600457 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 0.490 0.324 0.814 1.68
[ 2] XISreadExp 0.168 0.301 0.469 0.97
[ 3] XISreadEvent 10.072 0.467 10.539 21.81
[ 4] XISpreparePHASCORR 0.503 0.331 0.834 1.73
[ 5] XIStrailCorrection 1.210 0.320 1.530 3.17
[ 6] XISctiCorrection 15.210 5.323 20.533 42.49
[ 7] XISgrade 1.855 0.302 2.157 4.46
[ 8] XISpha2pi 1.361 0.295 1.656 3.43
[ 9] XISeditEventFits 9.027 0.744 9.771 20.22
(others) 0.019 0.007 0.026 0.05
--------------------------------------------------------------------------
TOTAL 39.914 8.414 48.328 100.00
-> xispi successful on ae703029010xi1_1_3x3n069.sff.infile,f,a,"ae703029010xi1_1_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi1_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 ae703029010xi1_1_3x3n069.sff
OUTFILE ae703029010xi1_1_3x3n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi1_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 / 600457 events )
saturated frame, t=268024172.841 - 268024180.841 676 (655/1331) seg=1111
frame time jump, t=268024180.841 - 268027236.840 by 3056.000 s
saturated frame, t=268027236.840 - 268027244.840 39813 (447/40260) seg=1111
frame time jump, t=268027244.840 - 268027308.840 by 64.000 s
saturated frame, t=268027308.840 - 268027316.840 27331 (443/27774) seg=1111
frame time jump, t=268027316.840 - 268027324.840 by 8.000 s
saturated frame, t=268027324.840 - 268027332.840 932 (651/1583) seg=1111
frame time jump, t=268027332.840 - 268027340.840 by 8.000 s
saturated frame, t=268027340.840 - 268027348.840 952 (653/1605) seg=1111
frame time jump, t=268027348.840 - 268027356.840 by 8.000 s
saturated frame, t=268027356.840 - 268027364.840 899 (650/1549) seg=1111
frame time jump, t=268027364.840 - 268027372.840 by 8.000 s
saturated frame, t=268027372.840 - 268027380.840 868 (653/1521) seg=1111
frame time jump, t=268027380.840 - 268027644.840 by 264.000 s
frame time jump, t=268029948.840 - 268033212.839 by 3264.000 s
saturated frame, t=268033212.839 - 268033220.839 36379 (443/36822) seg=1111
frame time jump, t=268033220.839 - 268033276.839 by 56.000 s
saturated frame, t=268033276.839 - 268033284.839 27315 (443/27758) seg=1111
frame time jump, t=268033284.839 - 268033292.839 by 8.000 s
saturated frame, t=268033292.839 - 268033300.839 6805 (655/7460) seg=1111
frame time jump, t=268033300.839 - 268033308.839 by 8.000 s
saturated frame, t=268033308.839 - 268033316.839 8377 (655/9032) seg=1111
frame time jump, t=268033316.839 - 268033324.839 by 8.000 s
saturated frame, t=268033324.839 - 268033332.839 8893 (655/9548) seg=1111
frame time jump, t=268033332.839 - 268033340.839 by 8.000 s
saturated frame, t=268033340.839 - 268033348.839 9414 (654/10068) seg=1111
frame time jump, t=268033348.839 - 268033612.839 by 264.000 s
... 10% ( 60045 / 600457 events )
saturated frame, t=268035684.839 - 268035692.839 7778 (657/8435) seg=1111
frame time jump, t=268035692.839 - 268035700.839 by 8.000 s
frame time jump, t=268035708.839 - 268037772.839 by 2064.000 s
frame time jump, t=268038180.839 - 268039092.839 by 912.000 s
saturated frame, t=268039092.839 - 268039100.839 36255 (443/36698) seg=1111
frame time jump, t=268039100.839 - 268039156.839 by 56.000 s
saturated frame, t=268039156.839 - 268039164.839 27316 (443/27759) seg=1111
frame time jump, t=268039164.839 - 268039172.839 by 8.000 s
saturated frame, t=268039172.839 - 268039180.839 1264 (653/1917) seg=1111
frame time jump, t=268039180.839 - 268039188.839 by 8.000 s
saturated frame, t=268039188.839 - 268039196.839 1290 (651/1941) seg=1111
frame time jump, t=268039196.839 - 268039204.839 by 8.000 s
saturated frame, t=268039204.839 - 268039212.839 1248 (651/1899) seg=1111
frame time jump, t=268039212.839 - 268039220.838 by 8.000 s
saturated frame, t=268039220.838 - 268039228.838 1498 (651/2149) seg=1111
frame time jump, t=268039228.838 - 268039492.838 by 264.000 s
saturated frame, t=268041428.838 - 268041436.838 722 (656/1378) seg=1111
frame time jump, t=268041436.838 - 268041444.838 by 8.000 s
saturated frame, t=268041460.838 - 268041468.838 1753 (657/2410) seg=1111
frame time jump, t=268041468.838 - 268041476.838 by 8.000 s
saturated frame, t=268041476.838 - 268041484.838 101 (187/288) seg=1111
frame time jump, t=268041484.838 - 268043532.838 by 2048.000 s
frame time jump, t=268044372.838 - 268044548.838 by 176.000 s
saturated frame, t=268044548.838 - 268044556.838 39999 (447/40446) seg=1111
frame time jump, t=268044556.838 - 268044612.838 by 56.000 s
saturated frame, t=268044612.838 - 268044620.838 27201 (443/27644) seg=1111
frame time jump, t=268044620.838 - 268044628.838 by 8.000 s
frame time jump, t=268044692.838 - 268044956.838 by 264.000 s
... 20% ( 120090 / 600457 events )
frame time jump, t=268047196.837 - 268049284.837 by 2088.000 s
frame time jump, t=268052956.837 - 268055044.836 by 2088.000 s
... 30% ( 180135 / 600457 events )
frame time jump, t=268058716.836 - 268060804.836 by 2088.000 s
... 40% ( 240180 / 600457 events )
saturated frame, t=268064444.835 - 268064452.835 835 (656/1491) seg=1111
frame time jump, t=268064452.835 - 268066548.835 by 2096.000 s
... 50% ( 300225 / 600457 events )
frame time jump, t=268070204.834 - 268072292.834 by 2088.000 s
frame time jump, t=268075964.834 - 268078052.833 by 2088.000 s
... 60% ( 360270 / 600457 events )
frame time jump, t=268081724.833 - 268083812.832 by 2088.000 s
... 70% ( 420315 / 600457 events )
saturated frame, t=268087444.832 - 268087452.832 396 (654/1050) seg=1111
frame time jump, t=268087452.832 - 268087460.832 by 8.000 s
frame time jump, t=268087468.832 - 268089684.832 by 2216.000 s
... 80% ( 480360 / 600457 events )
saturated frame, t=268093212.831 - 268093220.831 32 (181/213) seg=1111
frame time jump, t=268093220.831 - 268095372.831 by 2152.000 s
saturated frame, t=268095372.831 - 268095380.831 36357 (443/36800) seg=1111
frame time jump, t=268095380.831 - 268095436.831 by 56.000 s
saturated frame, t=268095436.831 - 268095444.831 27165 (443/27608) seg=1111
frame time jump, t=268095444.831 - 268095452.831 by 8.000 s
frame time jump, t=268095508.831 - 268095772.831 by 264.000 s
... 90% ( 540405 / 600457 events )
frame time jump, t=268097596.831 - 268097604.831 by 8.000 s
saturated frame, t=268098972.830 - 268098980.830 26 (186/212) seg=1111
frame time jump, t=268098980.830 - 268101516.830 by 2536.000 s
saturated frame, t=268101516.830 - 268101524.830 40045 (447/40492) seg=1111
frame time jump, t=268101524.830 - 268101588.830 by 64.000 s
saturated frame, t=268101588.830 - 268101596.830 27413 (443/27856) seg=1111
frame time jump, t=268101596.830 - 268101604.830 by 8.000 s
saturated frame, t=268101612.830 - 268101620.830 19 (511/530) seg=1111
frame time jump, t=268101620.830 - 268101628.830 by 8.000 s
frame time jump, t=268101660.830 - 268101924.830 by 264.000 s
... 100% ( 600457 / 600457 events )
XIScheckEventNo: GTI file 'ae703029010xi1_1_3x3n069.gti' created
N_FRAMES = 5568 / number of frames in the input event file
N_TESTED = 5530 / number of non-zero frames tested
N_PASSED = 5496 / number of frames passed the test
N_T_JUMP = 49 / number of frames detected time jump
N_SATURA = 34 / number of frames telemetry saturated
T_TESTED = 44240.000000 / exposure of non-zero frames tested
T_PASSED = 43968.000000 / exposure of frames passed the test
T_T_JUMP = 35151.994738 / 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: 5569
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 5568/5569
[ 2] XISreadExp version 1.6
| OK: 5568/5568
[ 3] XISreadEvent version 2.7 <------- LOOP: 600457
| OK: 600457/606025 -------> SKIP: 5568
[ 4] XIScheckEventNo version 1.2
| OK: 600457/600457
GET: 600457
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
5568 : XISreadFrame:ENTRY
5568 : XISreadFrame:OK
1 : XISreadExp:BEGIN
5568 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
606025 : XISreadEvent:ENTRY
606024 : XISreadEvent:OK
5530 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
600457 : XIScheckEventNo:ENTRY
600457 : 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 9 9 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 5568 606025 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 5568 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 5568 606025 SINGLE
XIS:FRAMES:S_TIME 8 8 5568 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 5568 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 5568 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 5568 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 5568 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 5568 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 5568 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 5568 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 5568 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 5568 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 5568 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 5568 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 5568 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 5568 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 5568 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 5568 5530 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 5568 0 SINGLE
XIS:FRAMES:BIAS 16 16 5568 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 5568 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 5568 0 SINGLE
XIS:FRAMES:AEDATE 4 4 5568 606025 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 5568 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 5568 600457 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 5568 5530 SINGLE
XIS:FRAMES:TIME 8 8 5568 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 600457 600457 SINGLE
XIS:RAWX 4 4 600457 0 SINGLE
XIS:RAWY 4 4 600457 0 SINGLE
XIS:ACTX 4 4 600457 0 SINGLE
XIS:ACTY 4 4 600457 0 SINGLE
XIS:DETX 4 4 600457 0 SINGLE
XIS:DETY 4 4 600457 0 SINGLE
XIS:FOCX 4 4 600457 0 SINGLE
XIS:FOCY 4 4 600457 0 SINGLE
XIS:X 4 4 600457 0 SINGLE
XIS:Y 4 4 600457 0 SINGLE
XIS:STATUS 4 4 600457 0 SINGLE
XIS:PHAS 36 36 600457 0 SINGLE
XIS:PHANOCTI 4 4 600457 0 SINGLE
XIS:PHA 4 4 600457 0 SINGLE
XIS:PI 4 4 600457 0 SINGLE
XIS:GRADE 4 4 600457 0 SINGLE
XIS:P_OUTER_MOST 4 4 600457 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 600457 0 SINGLE
XIS:AEDATE 4 4 600457 606024 FAMILY
XIS:EXPTIME 4 4 600457 606024 FAMILY
XIS:EXPTIME_AETIME 8 8 600457 0 SINGLE
XIS:S_TIME 8 8 600457 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 600457 606024 FAMILY
XIS:EVENT_SEQ_NO 4 4 600457 606024 SINGLE
XIS:TIME 8 8 600457 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 600457 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 1.335 0.015 1.350 9.73
[ 2] XISreadExp 0.009 0.004 0.013 0.09
[ 3] XISreadEvent 11.525 0.368 11.893 85.70
[ 4] XIScheckEventNo 0.296 0.307 0.603 4.34
(others) 0.011 0.008 0.019 0.14
--------------------------------------------------------------------------
TOTAL 13.176 0.702 13.878 100.00
-> xisgtigen successful on ae703029010xi1_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 ae703029010xi1_1_5x5n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi1_1_5x5n069.fff.infile,f,a,"ae703029010xi1_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,"ae703029010.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 ae703029010xi1_1_5x5n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_1_5x5n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 218907 events )
... 10% ( 21890 / 218907 events )
... 20% ( 43780 / 218907 events )
... 30% ( 65670 / 218907 events )
... 40% ( 87560 / 218907 events )
Event... 100001 (100000)
... 50% ( 109450 / 218907 events )
... 60% ( 131340 / 218907 events )
... 70% ( 153230 / 218907 events )
... 80% ( 175120 / 218907 events )
... 90% ( 197010 / 218907 events )
Event... 200001 (200000)
... 100% ( 218907 / 218907 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268006972.842802 / time start
TSTOP = 268023836.840622 / time stop
TELAPASE = 16863.997820 / elapsed time = TSTOP - TSTART
ONTIME = 11015.998704 / on time = sum of all GTIs
LIVETIME = 11015.998704 / on-source time corrected for CCD exposure
EXPOSURE = 11015.998704 / exposure time
xisEventFitsUtil: rename ./fileS86gBw-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 218909
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 218908/218909
[ 2] XISreadExp version 1.6
| OK: 218908/218908
[ 3] XISreadEvent version 2.7
| OK: 218907/218908 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 218907/218907
[ 5] XISeditEventFits version 2.1
| OK: 218907/218907
GET: 218907
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
218908 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
218908 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
218908 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
218907 : XIStime:ENTRY
218907 : XIStime:OK
1 : XISeditEventFits:BEGIN
218907 : XISeditEventFits:ENTRY
218907 : 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 9 9 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 218907 218907 SINGLE
XIS:RAWX 4 4 218907 218907 SINGLE
XIS:RAWY 4 4 218907 218907 SINGLE
XIS:ACTX 4 4 218907 218907 SINGLE
XIS:ACTY 4 4 218907 218907 SINGLE
XIS:DETX 4 4 218907 218907 SINGLE
XIS:DETY 4 4 218907 218907 SINGLE
XIS:FOCX 4 4 218907 218907 SINGLE
XIS:FOCY 4 4 218907 218907 SINGLE
XIS:X 4 4 218907 218907 SINGLE
XIS:Y 4 4 218907 218907 SINGLE
XIS:STATUS 4 4 218907 218907 SINGLE
XIS:PHAS 100 100 218907 218907 SINGLE
XIS:PHANOCTI 4 4 218907 218907 SINGLE
XIS:PHA 4 4 218907 218907 SINGLE
XIS:PI 4 4 218907 218907 SINGLE
XIS:GRADE 4 4 218907 218907 SINGLE
XIS:AEDATE 4 4 437814 218907 FAMILY
XIS:EXPTIME 4 4 218907 437814 FAMILY
XIS:EXPTIME_AETIME 8 8 437814 218907 SINGLE
XIS:S_TIME 8 8 218907 437814 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 218907 437814 FAMILY
XIS:EVENT_SEQ_NO 4 4 218907 218907 SINGLE
XIS:TIME 8 8 437814 218907 SINGLE
XIS:EXP_CENT_AETIME 8 8 437814 218907 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 218909 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 0.137 0.126 0.263 3.23
[ 2] XISreadExp 0.073 0.100 0.173 2.13
[ 3] XISreadEvent 3.325 0.230 3.555 43.73
[ 4] XIStime 0.495 0.129 0.624 7.67
[ 5] XISeditEventFits 3.218 0.281 3.498 43.03
(others) 0.009 0.007 0.016 0.20
--------------------------------------------------------------------------
TOTAL 7.257 0.873 8.130 100.00
-> xistime successful on ae703029010xi1_1_5x5n069.sff.infile,f,a,"ae703029010xi1_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,"ae703029010.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 ae703029010xi1_1_5x5n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_1_5x5n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 812.29 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 794.92 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 218907 events )
... 10% ( 21890 / 218907 events )
... 20% ( 43780 / 218907 events )
... 30% ( 65670 / 218907 events )
... 40% ( 87560 / 218907 events )
Event... 100001 (100000)
... 50% ( 109450 / 218907 events )
... 60% ( 131340 / 218907 events )
... 70% ( 153230 / 218907 events )
... 80% ( 175120 / 218907 events )
... 90% ( 197010 / 218907 events )
Event... 200001 (200000)
... 100% ( 218907 / 218907 events )
xisEventFitsUtil: rename ./fileN1Nehw-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 218909
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 218908/218909
[ 2] XISreadExp version 1.6
| OK: 218908/218908
[ 3] XISreadEvent version 2.7
| OK: 218907/218908 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 218907/218907
[ 5] XISeditEventFits version 2.1
| OK: 218907/218907
GET: 218907
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
218908 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
218908 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
218908 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
218907 : XIScoord:ENTRY
218907 : XIScoord:OK
1 : XISeditEventFits:BEGIN
218907 : XISeditEventFits:ENTRY
218907 : 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 9 9 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 218907 437814 SINGLE
XIS:RAWX 4 4 218907 437814 SINGLE
XIS:RAWY 4 4 218907 437814 SINGLE
XIS:ACTX 4 4 437814 218907 SINGLE
XIS:ACTY 4 4 437814 218907 SINGLE
XIS:DETX 4 4 437814 218907 SINGLE
XIS:DETY 4 4 437814 218907 SINGLE
XIS:FOCX 4 4 437814 218907 SINGLE
XIS:FOCY 4 4 437814 218907 SINGLE
XIS:X 4 4 437814 218907 SINGLE
XIS:Y 4 4 437814 218907 SINGLE
XIS:STATUS 4 4 218907 218907 SINGLE
XIS:PHAS 100 100 218907 218907 SINGLE
XIS:PHANOCTI 4 4 218907 218907 SINGLE
XIS:PHA 4 4 218907 218907 SINGLE
XIS:PI 4 4 218907 218907 SINGLE
XIS:GRADE 4 4 218907 218907 SINGLE
XIS:AEDATE 4 4 218907 218907 FAMILY
XIS:EXPTIME 4 4 218907 218907 FAMILY
XIS:EXPTIME_AETIME 8 8 218907 218907 SINGLE
XIS:S_TIME 8 8 218907 218907 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 218907 218907 FAMILY
XIS:EVENT_SEQ_NO 4 4 218907 218907 SINGLE
XIS:TIME 8 8 218907 437814 SINGLE
XIS:EXP_CENT_AETIME 8 8 218907 218907 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 218909 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 0.158 0.108 0.266 2.85
[ 2] XISreadExp 0.071 0.104 0.175 1.88
[ 3] XISreadEvent 3.504 0.177 3.681 39.49
[ 4] XIScoord 1.497 0.161 1.658 17.78
[ 5] XISeditEventFits 3.168 0.353 3.520 37.76
(others) 0.015 0.007 0.022 0.24
--------------------------------------------------------------------------
TOTAL 8.413 0.910 9.323 100.00
-> xiscoord successful on ae703029010xi1_1_5x5n069.sff.infile,f,a,"ae703029010xi1_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 ae703029010xi1_1_5x5n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_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 / 218907 events )
... 10% ( 21890 / 218907 events )
... 20% ( 43780 / 218907 events )
... 30% ( 65670 / 218907 events )
... 40% ( 87560 / 218907 events )
Event... 100001 (100000)
... 50% ( 109450 / 218907 events )
... 60% ( 131340 / 218907 events )
... 70% ( 153230 / 218907 events )
... 80% ( 175120 / 218907 events )
... 90% ( 197010 / 218907 events )
Event... 200001 (200000)
... 100% ( 218907 / 218907 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 2377 1.09
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 6310 2.88
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 448 0.20
B8 256 1PIX_FROM_SEGBOUNDARY 925 0.42
B9 512 SCI_3rd_TRAILING_ROW 2998 1.37
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 7568 3.46
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 2315 1.06
B16 65536 CALMASK 19387 8.86
B17 131072 SEGBOUNDARY 1970 0.90
B18 262144 SCI_2nd_TRAILING_ROW 3110 1.42
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 26264 12.00
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 2985 1.36
B29 536870912 SCI_TRAILING_ROW 62512 28.56
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 7 0.00
### 0 CLEAN_ZERO 108641 49.63
--------------------------------------------------------------
+++ 4294967295 SUM 247817 113.21
::: 524287 SAFE(B0-18) 134994 61.67
>>> 4294967295 TOTAL 218907 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileCQHcK5-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 218909
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 218908/218909
[ 2] XISreadExp version 1.6
| OK: 218908/218908
[ 3] XISreadEvent version 2.7
| OK: 218907/218908 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 218907/218907
[ 5] XISeditEventFits version 2.1
| OK: 218907/218907
GET: 218907
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
218908 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
218908 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
218908 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
218907 : XISputPixelQuality:ENTRY
218907 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
218907 : XISeditEventFits:ENTRY
218907 : 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 9 9 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 218907 218907 SINGLE
XIS:RAWX 4 4 218907 218907 SINGLE
XIS:RAWY 4 4 218907 437814 SINGLE
XIS:ACTX 4 4 218907 437814 SINGLE
XIS:ACTY 4 4 218907 437814 SINGLE
XIS:DETX 4 4 218907 218907 SINGLE
XIS:DETY 4 4 218907 218907 SINGLE
XIS:FOCX 4 4 218907 218907 SINGLE
XIS:FOCY 4 4 218907 218907 SINGLE
XIS:X 4 4 218907 218907 SINGLE
XIS:Y 4 4 218907 218907 SINGLE
XIS:STATUS 4 4 437814 218907 SINGLE
XIS:PHAS 100 100 218907 218907 SINGLE
XIS:PHANOCTI 4 4 218907 218907 SINGLE
XIS:PHA 4 4 218907 218907 SINGLE
XIS:PI 4 4 218907 218907 SINGLE
XIS:GRADE 4 4 218907 218907 SINGLE
XIS:AEDATE 4 4 218907 218907 FAMILY
XIS:EXPTIME 4 4 218907 218907 FAMILY
XIS:EXPTIME_AETIME 8 8 218907 218907 SINGLE
XIS:S_TIME 8 8 218907 218907 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 218907 218907 FAMILY
XIS:EVENT_SEQ_NO 4 4 218907 218907 SINGLE
XIS:TIME 8 8 218907 437814 SINGLE
XIS:EXP_CENT_AETIME 8 8 218907 218907 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 218909 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 0.154 0.137 0.291 3.71
[ 2] XISreadExp 0.044 0.118 0.162 2.07
[ 3] XISreadEvent 3.254 0.168 3.421 43.64
[ 4] XISputPixelQuality 0.316 0.112 0.428 5.46
[ 5] XISeditEventFits 3.132 0.390 3.521 44.91
(others) 0.009 0.008 0.017 0.22
--------------------------------------------------------------------------
TOTAL 6.908 0.933 7.841 100.00
-> xisputpixelquality successful on ae703029010xi1_1_5x5n069.sff.infile,f,a,"ae703029010xi1_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,"ae703029010xi1_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 ae703029010xi1_1_5x5n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_1_5x5n069.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-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 'ae703029010xi1_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 ae703029010xi1_0.hk, S1_VDCHK18_CAL, nrows=5196
nvalid=4939 nrej=257 time=268006979.3 - 268190697.3 [s]
AE-temp: average=18.929 sigma=1.294 min=16.842 max=22.656 [degC]
Event... 1 (0)
... 0% ( 0 / 218907 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 21890 / 218907 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 43780 / 218907 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 65670 / 218907 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 87560 / 218907 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 109450 / 218907 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 131340 / 218907 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 153230 / 218907 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 175120 / 218907 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 197010 / 218907 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 218907 / 218907 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filemMyf3N-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 218909
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 218908/218909
[ 2] XISreadExp version 1.6
| OK: 218908/218908
[ 3] XISreadEvent version 2.7
| OK: 218907/218908 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 218907/218907
[ 5] XIStrailCorrection version 3.1
| OK: 218907/218907
[ 6] XISctiCorrection version 3.4
| OK: 218907/218907
[ 7] XISgrade version 3.3
| OK: 218907/218907
[ 8] XISpha2pi version 3.2
| OK: 218907/218907
[ 9] XISeditEventFits version 2.1
| OK: 218907/218907
GET: 218907
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
218908 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
218908 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
218908 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
218907 : XISpreparePHASCORR:ENTRY
218907 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
218907 : XIStrailCorrection:ENTRY
218907 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
218907 : XISctiCorrection:ENTRY
218907 : XISctiCorrection:OK
1 : XISgrade:BEGIN
218907 : XISgrade:ENTRY
218907 : XISgrade:OK
1 : XISpha2pi:BEGIN
218907 : XISpha2pi:ENTRY
218907 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
218907 : XISeditEventFits:ENTRY
218907 : 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 875634 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 9 9 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 218907 1094535 SINGLE
XIS:RAWX 4 4 218907 656721 SINGLE
XIS:RAWY 4 4 218907 437814 SINGLE
XIS:ACTX 4 4 218907 218907 SINGLE
XIS:ACTY 4 4 218907 656721 SINGLE
XIS:DETX 4 4 218907 218907 SINGLE
XIS:DETY 4 4 218907 218907 SINGLE
XIS:FOCX 4 4 218907 218907 SINGLE
XIS:FOCY 4 4 218907 218907 SINGLE
XIS:X 4 4 218907 218907 SINGLE
XIS:Y 4 4 218907 218907 SINGLE
XIS:STATUS 4 4 218907 218907 SINGLE
XIS:PHAS 100 100 218907 437814 SINGLE
XIS:PHANOCTI 4 4 437814 218907 SINGLE
XIS:PHA 4 4 437814 218907 SINGLE
XIS:PI 4 4 437814 218907 SINGLE
XIS:GRADE 4 4 437814 218907 SINGLE
XIS:AEDATE 4 4 218907 218907 FAMILY
XIS:EXPTIME 4 4 218907 218907 FAMILY
XIS:EXPTIME_AETIME 8 8 218907 218907 SINGLE
XIS:S_TIME 8 8 218907 218907 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 218907 218907 FAMILY
XIS:EVENT_SEQ_NO 4 4 218907 218907 SINGLE
XIS:TIME 8 8 218907 1094535 SINGLE
XIS:EXP_CENT_AETIME 8 8 218907 218907 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 218909 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 437814 218907 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 218907 218907 SINGLE
XIS:PHASCORR 200 200 656721 656721 SINGLE
XIS:PHA:DOUBLE 8 8 218907 218907 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 0.199 0.104 0.303 1.57
[ 2] XISreadExp 0.067 0.092 0.159 0.83
[ 3] XISreadEvent 3.451 0.146 3.597 18.70
[ 4] XISpreparePHASCORR 0.210 0.140 0.350 1.82
[ 5] XIStrailCorrection 0.466 0.109 0.575 2.99
[ 6] XISctiCorrection 7.895 1.371 9.266 48.17
[ 7] XISgrade 0.686 0.119 0.805 4.18
[ 8] XISpha2pi 0.488 0.122 0.610 3.17
[ 9] XISeditEventFits 3.235 0.309 3.544 18.43
(others) 0.017 0.009 0.026 0.14
--------------------------------------------------------------------------
TOTAL 16.714 2.521 19.235 100.00
-> xispi successful on ae703029010xi1_1_5x5n069.sff.infile,f,a,"ae703029010xi1_1_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi1_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 ae703029010xi1_1_5x5n069.sff
OUTFILE ae703029010xi1_1_5x5n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi1_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 / 218907 events )
saturated frame, t=268007348.843 - 268007356.843 1221 (1454/2675) seg=1111
frame time jump, t=268007588.843 - 268009068.842 by 1480.000 s
saturated frame, t=268009068.842 - 268009076.842 41803 (816/42619) seg=1111
saturated frame, t=268009076.842 - 268009084.842 37160 (808/37968) seg=1111
frame time jump, t=268009084.842 - 268009132.842 by 48.000 s
saturated frame, t=268009132.842 - 268009140.842 28665 (814/29479) seg=1111
frame time jump, t=268009212.842 - 268009476.842 by 264.000 s
... 10% ( 21890 / 218907 events )
... 20% ( 43780 / 218907 events )
... 30% ( 65670 / 218907 events )
saturated frame, t=268012932.842 - 268012940.842 4681 (1457/6138) seg=1111
... 40% ( 87560 / 218907 events )
saturated frame, t=268012980.842 - 268012988.842 634 (1457/2091) seg=1111
frame time jump, t=268013652.842 - 268015188.842 by 1536.000 s
saturated frame, t=268015188.842 - 268015196.842 40776 (811/41587) seg=1111
saturated frame, t=268015196.842 - 268015204.842 37509 (808/38317) seg=1111
frame time jump, t=268015204.842 - 268015252.842 by 48.000 s
saturated frame, t=268015252.842 - 268015260.842 28577 (808/29385) seg=1111
frame time jump, t=268015332.842 - 268015596.842 by 264.000 s
... 50% ( 109450 / 218907 events )
... 60% ( 131340 / 218907 events )
frame time jump, t=268017108.841 - 268017564.841 by 456.000 s
saturated frame, t=268018468.841 - 268018476.841 293 (1455/1748) seg=1111
saturated frame, t=268018540.841 - 268018548.841 964 (1457/2421) seg=1111
saturated frame, t=268018548.841 - 268018556.841 67 (1452/1519) seg=1111
... 70% ( 153230 / 218907 events )
saturated frame, t=268018596.841 - 268018604.841 1990 (1457/3447) seg=1111
saturated frame, t=268018676.841 - 268018684.841 92 (1454/1546) seg=1111
saturated frame, t=268018732.841 - 268018740.841 6894 (1458/8352) seg=1111
saturated frame, t=268018740.841 - 268018748.841 1004 (1446/2450) seg=1111
... 80% ( 175120 / 218907 events )
frame time jump, t=268019828.841 - 268021260.841 by 1432.000 s
saturated frame, t=268021260.841 - 268021268.841 40876 (812/41688) seg=1111
saturated frame, t=268021268.841 - 268021276.841 37438 (808/38246) seg=1111
frame time jump, t=268021276.841 - 268021332.841 by 56.000 s
saturated frame, t=268021332.841 - 268021340.841 28930 (808/29738) seg=1111
saturated frame, t=268021340.841 - 268021348.841 1114 (1454/2568) seg=1111
saturated frame, t=268021348.841 - 268021356.841 87 (1449/1536) seg=1111
saturated frame, t=268021356.841 - 268021364.841 157 (1425/1582) seg=1111
saturated frame, t=268021364.841 - 268021372.841 31 (1449/1480) seg=1111
saturated frame, t=268021372.841 - 268021380.841 23 (1448/1471) seg=1111
saturated frame, t=268021380.841 - 268021388.841 54 (1451/1505) seg=1111
frame time jump, t=268021404.841 - 268021668.841 by 264.000 s
... 90% ( 197010 / 218907 events )
... 100% ( 218907 / 218907 events )
XIScheckEventNo: GTI file 'ae703029010xi1_1_5x5n069.gti' created
N_FRAMES = 1396 / number of frames in the input event file
N_TESTED = 1377 / number of non-zero frames tested
N_PASSED = 1352 / number of frames passed the test
N_T_JUMP = 10 / number of frames detected time jump
N_SATURA = 25 / number of frames telemetry saturated
T_TESTED = 11016.000000 / exposure of non-zero frames tested
T_PASSED = 10816.000000 / exposure of frames passed the test
T_T_JUMP = 5847.999116 / loss of exposure due to time jump
T_SATURA = 200.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1397
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 1396/1397
[ 2] XISreadExp version 1.6
| OK: 1396/1396
[ 3] XISreadEvent version 2.7 <------- LOOP: 218907
| OK: 218907/220303 -------> SKIP: 1396
[ 4] XIScheckEventNo version 1.2
| OK: 218907/218907
GET: 218907
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
1396 : XISreadFrame:ENTRY
1396 : XISreadFrame:OK
1 : XISreadExp:BEGIN
1396 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
220303 : XISreadEvent:ENTRY
220302 : XISreadEvent:OK
1377 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
218907 : XIScheckEventNo:ENTRY
218907 : 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 9 9 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 1396 220303 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 1396 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 1396 220303 SINGLE
XIS:FRAMES:S_TIME 8 8 1396 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 1396 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 1396 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 1396 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 1396 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 1396 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 1396 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 1396 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 1396 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 1396 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 1396 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 1396 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 1396 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 1396 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 1396 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 1396 1377 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 1396 0 SINGLE
XIS:FRAMES:BIAS 16 16 1396 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 1396 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 1396 0 SINGLE
XIS:FRAMES:AEDATE 4 4 1396 220303 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 1396 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 1396 218907 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 1396 1377 SINGLE
XIS:FRAMES:TIME 8 8 1396 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 218907 218907 SINGLE
XIS:RAWX 4 4 218907 0 SINGLE
XIS:RAWY 4 4 218907 0 SINGLE
XIS:ACTX 4 4 218907 0 SINGLE
XIS:ACTY 4 4 218907 0 SINGLE
XIS:DETX 4 4 218907 0 SINGLE
XIS:DETY 4 4 218907 0 SINGLE
XIS:FOCX 4 4 218907 0 SINGLE
XIS:FOCY 4 4 218907 0 SINGLE
XIS:X 4 4 218907 0 SINGLE
XIS:Y 4 4 218907 0 SINGLE
XIS:STATUS 4 4 218907 0 SINGLE
XIS:PHAS 100 100 218907 0 SINGLE
XIS:PHANOCTI 4 4 218907 0 SINGLE
XIS:PHA 4 4 218907 0 SINGLE
XIS:PI 4 4 218907 0 SINGLE
XIS:GRADE 4 4 218907 0 SINGLE
XIS:AEDATE 4 4 218907 220302 FAMILY
XIS:EXPTIME 4 4 218907 220302 FAMILY
XIS:EXPTIME_AETIME 8 8 218907 0 SINGLE
XIS:S_TIME 8 8 218907 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 218907 220302 FAMILY
XIS:EVENT_SEQ_NO 4 4 218907 220302 SINGLE
XIS:TIME 8 8 218907 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 218907 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 0.346 0.005 0.351 7.78
[ 2] XISreadExp 0.006 0.000 0.006 0.13
[ 3] XISreadEvent 3.741 0.141 3.882 86.06
[ 4] XIScheckEventNo 0.111 0.142 0.253 5.61
(others) 0.013 0.006 0.019 0.42
--------------------------------------------------------------------------
TOTAL 4.217 0.294 4.511 100.00
-> xisgtigen successful on ae703029010xi1_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 ae703029010xi1_2_3x3n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi1_2_3x3n069.fff.infile,f,a,"ae703029010xi1_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,"ae703029010.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 ae703029010xi1_2_3x3n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_2_3x3n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 686805 events )
... 10% ( 68680 / 686805 events )
Event... 100001 (100000)
... 20% ( 137360 / 686805 events )
Event... 200001 (200000)
... 30% ( 206040 / 686805 events )
... 40% ( 274720 / 686805 events )
Event... 300001 (300000)
... 50% ( 343400 / 686805 events )
Event... 400001 (400000)
... 60% ( 412080 / 686805 events )
... 70% ( 480760 / 686805 events )
Event... 500001 (500000)
... 80% ( 549440 / 686805 events )
Event... 600001 (600000)
... 90% ( 618120 / 686805 events )
... 100% ( 686805 / 686805 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268103228.829843 / time start
TSTOP = 268177324.819800 / time stop
TELAPASE = 74095.989957 / elapsed time = TSTOP - TSTART
ONTIME = 40711.994967 / on time = sum of all GTIs
LIVETIME = 40711.994967 / on-source time corrected for CCD exposure
EXPOSURE = 40711.994967 / exposure time
xisEventFitsUtil: rename ./fileUMdWmp-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 686807
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 686806/686807
[ 2] XISreadExp version 1.6
| OK: 686806/686806
[ 3] XISreadEvent version 2.7
| OK: 686805/686806 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 686805/686805
[ 5] XISeditEventFits version 2.1
| OK: 686805/686805
GET: 686805
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
686806 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
686806 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
686806 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
686805 : XIStime:ENTRY
686805 : XIStime:OK
1 : XISeditEventFits:BEGIN
686805 : XISeditEventFits:ENTRY
686805 : 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 9 9 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 686805 686805 SINGLE
XIS:RAWX 4 4 686805 686805 SINGLE
XIS:RAWY 4 4 686805 686805 SINGLE
XIS:ACTX 4 4 686805 686805 SINGLE
XIS:ACTY 4 4 686805 686805 SINGLE
XIS:DETX 4 4 686805 686805 SINGLE
XIS:DETY 4 4 686805 686805 SINGLE
XIS:FOCX 4 4 686805 686805 SINGLE
XIS:FOCY 4 4 686805 686805 SINGLE
XIS:X 4 4 686805 686805 SINGLE
XIS:Y 4 4 686805 686805 SINGLE
XIS:STATUS 4 4 686805 686805 SINGLE
XIS:PHAS 36 36 686805 686805 SINGLE
XIS:PHANOCTI 4 4 686805 686805 SINGLE
XIS:PHA 4 4 686805 686805 SINGLE
XIS:PI 4 4 686805 686805 SINGLE
XIS:GRADE 4 4 686805 686805 SINGLE
XIS:P_OUTER_MOST 4 4 686805 686805 SINGLE
XIS:SUM_OUTER_MOST 4 4 686805 686805 SINGLE
XIS:AEDATE 4 4 1373610 686805 FAMILY
XIS:EXPTIME 4 4 686805 1373610 FAMILY
XIS:EXPTIME_AETIME 8 8 1373610 686805 SINGLE
XIS:S_TIME 8 8 686805 1373610 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 686805 1373610 FAMILY
XIS:EVENT_SEQ_NO 4 4 686805 686805 SINGLE
XIS:TIME 8 8 1373610 686805 SINGLE
XIS:EXP_CENT_AETIME 8 8 1373610 686805 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 686807 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 0.470 0.343 0.813 3.10
[ 2] XISreadExp 0.217 0.328 0.545 2.08
[ 3] XISreadEvent 11.704 0.697 12.401 47.32
[ 4] XIStime 1.341 0.356 1.697 6.47
[ 5] XISeditEventFits 9.916 0.818 10.734 40.96
(others) 0.014 0.004 0.018 0.07
--------------------------------------------------------------------------
TOTAL 23.662 2.546 26.208 100.00
-> xistime successful on ae703029010xi1_2_3x3n069.sff.infile,f,a,"ae703029010xi1_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,"ae703029010.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 ae703029010xi1_2_3x3n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_2_3x3n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 812.29 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 794.92 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 686805 events )
... 10% ( 68680 / 686805 events )
Event... 100001 (100000)
... 20% ( 137360 / 686805 events )
Event... 200001 (200000)
... 30% ( 206040 / 686805 events )
... 40% ( 274720 / 686805 events )
Event... 300001 (300000)
... 50% ( 343400 / 686805 events )
Event... 400001 (400000)
... 60% ( 412080 / 686805 events )
... 70% ( 480760 / 686805 events )
Event... 500001 (500000)
... 80% ( 549440 / 686805 events )
Event... 600001 (600000)
... 90% ( 618120 / 686805 events )
... 100% ( 686805 / 686805 events )
xisEventFitsUtil: rename ./fileXpphdw-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 686807
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 686806/686807
[ 2] XISreadExp version 1.6
| OK: 686806/686806
[ 3] XISreadEvent version 2.7
| OK: 686805/686806 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 686805/686805
[ 5] XISeditEventFits version 2.1
| OK: 686805/686805
GET: 686805
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
686806 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
686806 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
686806 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
686805 : XIScoord:ENTRY
686805 : XIScoord:OK
1 : XISeditEventFits:BEGIN
686805 : XISeditEventFits:ENTRY
686805 : 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 9 9 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 686805 1373610 SINGLE
XIS:RAWX 4 4 686805 1373610 SINGLE
XIS:RAWY 4 4 686805 1373610 SINGLE
XIS:ACTX 4 4 1373610 686805 SINGLE
XIS:ACTY 4 4 1373610 686805 SINGLE
XIS:DETX 4 4 1373610 686805 SINGLE
XIS:DETY 4 4 1373610 686805 SINGLE
XIS:FOCX 4 4 1373610 686805 SINGLE
XIS:FOCY 4 4 1373610 686805 SINGLE
XIS:X 4 4 1373610 686805 SINGLE
XIS:Y 4 4 1373610 686805 SINGLE
XIS:STATUS 4 4 686805 686805 SINGLE
XIS:PHAS 36 36 686805 686805 SINGLE
XIS:PHANOCTI 4 4 686805 686805 SINGLE
XIS:PHA 4 4 686805 686805 SINGLE
XIS:PI 4 4 686805 686805 SINGLE
XIS:GRADE 4 4 686805 686805 SINGLE
XIS:P_OUTER_MOST 4 4 686805 686805 SINGLE
XIS:SUM_OUTER_MOST 4 4 686805 686805 SINGLE
XIS:AEDATE 4 4 686805 686805 FAMILY
XIS:EXPTIME 4 4 686805 686805 FAMILY
XIS:EXPTIME_AETIME 8 8 686805 686805 SINGLE
XIS:S_TIME 8 8 686805 686805 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 686805 686805 FAMILY
XIS:EVENT_SEQ_NO 4 4 686805 686805 SINGLE
XIS:TIME 8 8 686805 1373610 SINGLE
XIS:EXP_CENT_AETIME 8 8 686805 686805 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 686807 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 0.554 0.386 0.940 3.16
[ 2] XISreadExp 0.138 0.416 0.554 1.86
[ 3] XISreadEvent 11.374 0.582 11.956 40.18
[ 4] XIScoord 4.573 0.441 5.014 16.85
[ 5] XISeditEventFits 10.331 0.941 11.272 37.88
(others) 0.017 0.005 0.022 0.07
--------------------------------------------------------------------------
TOTAL 26.988 2.771 29.758 100.00
-> xiscoord successful on ae703029010xi1_2_3x3n069.sff.infile,f,a,"ae703029010xi1_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 ae703029010xi1_2_3x3n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_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 / 686805 events )
... 10% ( 68680 / 686805 events )
Event... 100001 (100000)
... 20% ( 137360 / 686805 events )
Event... 200001 (200000)
... 30% ( 206040 / 686805 events )
... 40% ( 274720 / 686805 events )
Event... 300001 (300000)
... 50% ( 343400 / 686805 events )
Event... 400001 (400000)
... 60% ( 412080 / 686805 events )
... 70% ( 480760 / 686805 events )
Event... 500001 (500000)
... 80% ( 549440 / 686805 events )
Event... 600001 (600000)
... 90% ( 618120 / 686805 events )
... 100% ( 686805 / 686805 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 10338 1.51
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 23302 3.39
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 1786 0.26
B8 256 1PIX_FROM_SEGBOUNDARY 3157 0.46
B9 512 SCI_3rd_TRAILING_ROW 9065 1.32
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 27467 4.00
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 6498 0.95
B16 65536 CALMASK 64647 9.41
B17 131072 SEGBOUNDARY 7325 1.07
B18 262144 SCI_2nd_TRAILING_ROW 13324 1.94
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 59006 8.59
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 10137 1.48
B29 536870912 SCI_TRAILING_ROW 227436 33.12
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 64 0.01
### 0 CLEAN_ZERO 318621 46.39
--------------------------------------------------------------
+++ 4294967295 SUM 782173 113.89
::: 524287 SAFE(B0-18) 406899 59.25
>>> 4294967295 TOTAL 686805 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileV36TYK-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 686807
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 686806/686807
[ 2] XISreadExp version 1.6
| OK: 686806/686806
[ 3] XISreadEvent version 2.7
| OK: 686805/686806 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 686805/686805
[ 5] XISeditEventFits version 2.1
| OK: 686805/686805
GET: 686805
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
686806 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
686806 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
686806 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
686805 : XISputPixelQuality:ENTRY
686805 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
686805 : XISeditEventFits:ENTRY
686805 : 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 9 9 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 686805 686805 SINGLE
XIS:RAWX 4 4 686805 686805 SINGLE
XIS:RAWY 4 4 686805 1373610 SINGLE
XIS:ACTX 4 4 686805 1373610 SINGLE
XIS:ACTY 4 4 686805 1373610 SINGLE
XIS:DETX 4 4 686805 686805 SINGLE
XIS:DETY 4 4 686805 686805 SINGLE
XIS:FOCX 4 4 686805 686805 SINGLE
XIS:FOCY 4 4 686805 686805 SINGLE
XIS:X 4 4 686805 686805 SINGLE
XIS:Y 4 4 686805 686805 SINGLE
XIS:STATUS 4 4 1373610 686805 SINGLE
XIS:PHAS 36 36 686805 686805 SINGLE
XIS:PHANOCTI 4 4 686805 686805 SINGLE
XIS:PHA 4 4 686805 686805 SINGLE
XIS:PI 4 4 686805 686805 SINGLE
XIS:GRADE 4 4 686805 686805 SINGLE
XIS:P_OUTER_MOST 4 4 686805 686805 SINGLE
XIS:SUM_OUTER_MOST 4 4 686805 686805 SINGLE
XIS:AEDATE 4 4 686805 686805 FAMILY
XIS:EXPTIME 4 4 686805 686805 FAMILY
XIS:EXPTIME_AETIME 8 8 686805 686805 SINGLE
XIS:S_TIME 8 8 686805 686805 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 686805 686805 FAMILY
XIS:EVENT_SEQ_NO 4 4 686805 686805 SINGLE
XIS:TIME 8 8 686805 1373610 SINGLE
XIS:EXP_CENT_AETIME 8 8 686805 686805 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 686807 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 0.482 0.359 0.841 3.33
[ 2] XISreadExp 0.202 0.299 0.501 1.98
[ 3] XISreadEvent 11.306 0.411 11.717 46.37
[ 4] XISputPixelQuality 0.843 0.340 1.183 4.68
[ 5] XISeditEventFits 9.964 1.047 11.011 43.57
(others) 0.009 0.008 0.017 0.07
--------------------------------------------------------------------------
TOTAL 22.807 2.464 25.270 100.00
-> xisputpixelquality successful on ae703029010xi1_2_3x3n069.sff.infile,f,a,"ae703029010xi1_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,"ae703029010xi1_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 ae703029010xi1_2_3x3n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_2_3x3n069.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-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 'ae703029010xi1_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 ae703029010xi1_0.hk, S1_VDCHK18_CAL, nrows=5196
nvalid=4939 nrej=257 time=268006979.3 - 268190697.3 [s]
AE-temp: average=18.929 sigma=1.294 min=16.842 max=22.656 [degC]
Event... 1 (0)
... 0% ( 0 / 686805 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 68680 / 686805 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 137360 / 686805 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 206040 / 686805 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 274720 / 686805 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 343400 / 686805 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 400001 (400000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 412080 / 686805 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 480760 / 686805 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 500001 (500000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 549440 / 686805 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 600001 (600000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 618120 / 686805 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 686805 / 686805 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileWmmI1X-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 686807
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 686806/686807
[ 2] XISreadExp version 1.6
| OK: 686806/686806
[ 3] XISreadEvent version 2.7
| OK: 686805/686806 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 686805/686805
[ 5] XIStrailCorrection version 3.1
| OK: 686805/686805
[ 6] XISctiCorrection version 3.4
| OK: 686805/686805
[ 7] XISgrade version 3.3
| OK: 686805/686805
[ 8] XISpha2pi version 3.2
| OK: 686805/686805
[ 9] XISeditEventFits version 2.1
| OK: 686805/686805
GET: 686805
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
686806 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
686806 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
686806 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
686805 : XISpreparePHASCORR:ENTRY
686805 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
686805 : XIStrailCorrection:ENTRY
686805 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
686805 : XISctiCorrection:ENTRY
686805 : XISctiCorrection:OK
1 : XISgrade:BEGIN
686805 : XISgrade:ENTRY
686805 : XISgrade:OK
1 : XISpha2pi:BEGIN
686805 : XISpha2pi:ENTRY
686805 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
686805 : XISeditEventFits:ENTRY
686805 : 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 2747226 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 9 9 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 686805 3434025 SINGLE
XIS:RAWX 4 4 686805 2060415 SINGLE
XIS:RAWY 4 4 686805 1373610 SINGLE
XIS:ACTX 4 4 686805 686805 SINGLE
XIS:ACTY 4 4 686805 2060415 SINGLE
XIS:DETX 4 4 686805 686805 SINGLE
XIS:DETY 4 4 686805 686805 SINGLE
XIS:FOCX 4 4 686805 686805 SINGLE
XIS:FOCY 4 4 686805 686805 SINGLE
XIS:X 4 4 686805 686805 SINGLE
XIS:Y 4 4 686805 686805 SINGLE
XIS:STATUS 4 4 686805 686805 SINGLE
XIS:PHAS 36 36 686805 1373610 SINGLE
XIS:PHANOCTI 4 4 1373610 686805 SINGLE
XIS:PHA 4 4 1373610 686805 SINGLE
XIS:PI 4 4 1373610 686805 SINGLE
XIS:GRADE 4 4 1373610 686805 SINGLE
XIS:P_OUTER_MOST 4 4 686805 1373610 SINGLE
XIS:SUM_OUTER_MOST 4 4 686805 1373610 SINGLE
XIS:AEDATE 4 4 686805 686805 FAMILY
XIS:EXPTIME 4 4 686805 686805 FAMILY
XIS:EXPTIME_AETIME 8 8 686805 686805 SINGLE
XIS:S_TIME 8 8 686805 686805 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 686805 686805 FAMILY
XIS:EVENT_SEQ_NO 4 4 686805 686805 SINGLE
XIS:TIME 8 8 686805 3434025 SINGLE
XIS:EXP_CENT_AETIME 8 8 686805 686805 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 686807 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 1373610 686805 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 686805 686805 SINGLE
XIS:PHASCORR 72 72 2060415 2060415 SINGLE
XIS:PHA:DOUBLE 8 8 686805 686805 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 0.539 0.338 0.877 1.70
[ 2] XISreadExp 0.200 0.339 0.539 1.04
[ 3] XISreadEvent 11.739 0.465 12.204 23.61
[ 4] XISpreparePHASCORR 0.572 0.339 0.911 1.76
[ 5] XIStrailCorrection 1.476 0.357 1.833 3.54
[ 6] XISctiCorrection 15.205 4.902 20.107 38.89
[ 7] XISgrade 2.045 0.328 2.373 4.59
[ 8] XISpha2pi 1.399 0.338 1.737 3.36
[ 9] XISeditEventFits 10.311 0.784 11.095 21.46
(others) 0.019 0.007 0.026 0.05
--------------------------------------------------------------------------
TOTAL 43.504 8.197 51.701 100.00
-> xispi successful on ae703029010xi1_2_3x3n069.sff.infile,f,a,"ae703029010xi1_2_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi1_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 ae703029010xi1_2_3x3n069.sff
OUTFILE ae703029010xi1_2_3x3n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi1_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 / 686805 events )
saturated frame, t=268103228.830 - 268103236.830 -115 (115/0) seg=1111
frame time jump, t=268104724.830 - 268107532.829 by 2808.000 s
saturated frame, t=268107532.829 - 268107540.829 39554 (446/40000) seg=1111
frame time jump, t=268107540.829 - 268107596.829 by 56.000 s
saturated frame, t=268107596.829 - 268107604.829 26882 (443/27325) seg=1111
frame time jump, t=268107604.829 - 268107612.829 by 8.000 s
saturated frame, t=268107612.829 - 268107620.829 243 (649/892) seg=1111
frame time jump, t=268107620.829 - 268107628.829 by 8.000 s
saturated frame, t=268107628.829 - 268107636.829 177 (648/825) seg=1111
frame time jump, t=268107636.829 - 268107644.829 by 8.000 s
saturated frame, t=268107644.829 - 268107652.829 56 (650/706) seg=1111
frame time jump, t=268107652.829 - 268107660.829 by 8.000 s
saturated frame, t=268107660.829 - 268107668.829 60 (650/710) seg=1111
frame time jump, t=268107668.829 - 268107940.829 by 272.000 s
frame time jump, t=268110484.829 - 268113516.828 by 3032.000 s
saturated frame, t=268113516.828 - 268113524.828 39518 (446/39964) seg=1111
frame time jump, t=268113524.828 - 268113588.828 by 64.000 s
saturated frame, t=268113588.828 - 268113596.828 27426 (443/27869) seg=1111
frame time jump, t=268113596.828 - 268113604.828 by 8.000 s
saturated frame, t=268113604.828 - 268113612.828 596 (652/1248) seg=1111
frame time jump, t=268113612.828 - 268113620.828 by 8.000 s
saturated frame, t=268113620.828 - 268113628.828 490 (650/1140) seg=1111
frame time jump, t=268113628.828 - 268113636.828 by 8.000 s
saturated frame, t=268113636.828 - 268113644.828 543 (639/1182) seg=1111
frame time jump, t=268113644.828 - 268113652.828 by 8.000 s
saturated frame, t=268113652.828 - 268113660.828 446 (649/1095) seg=1111
frame time jump, t=268113660.828 - 268113924.828 by 264.000 s
... 10% ( 68680 / 686805 events )
frame time jump, t=268116228.828 - 268119492.828 by 3264.000 s
saturated frame, t=268119492.828 - 268119500.828 36362 (443/36805) seg=1111
frame time jump, t=268119500.828 - 268119556.828 by 56.000 s
saturated frame, t=268119556.828 - 268119564.828 27439 (443/27882) seg=1111
frame time jump, t=268119564.828 - 268119572.828 by 8.000 s
saturated frame, t=268119572.828 - 268119580.828 6612 (654/7266) seg=1111
frame time jump, t=268119580.828 - 268119588.828 by 8.000 s
saturated frame, t=268119588.828 - 268119596.828 8948 (653/9601) seg=1111
frame time jump, t=268119596.828 - 268119604.828 by 8.000 s
saturated frame, t=268119604.828 - 268119612.828 9801 (655/10456) seg=1111
frame time jump, t=268119612.828 - 268119620.828 by 8.000 s
saturated frame, t=268119620.828 - 268119628.828 7797 (651/8448) seg=1111
frame time jump, t=268119628.828 - 268119892.828 by 264.000 s
saturated frame, t=268121964.827 - 268121972.827 535 (656/1191) seg=1111
frame time jump, t=268121972.827 - 268121980.827 by 8.000 s
frame time jump, t=268121988.827 - 268124068.827 by 2080.000 s
saturated frame, t=268124500.827 - 268124508.827 248 (173/421) seg=1111
frame time jump, t=268124508.827 - 268125308.827 by 800.000 s
saturated frame, t=268125308.827 - 268125316.827 39297 (445/39742) seg=1111
frame time jump, t=268125316.827 - 268125372.827 by 56.000 s
saturated frame, t=268125372.827 - 268125380.827 27280 (443/27723) seg=1111
frame time jump, t=268125380.827 - 268125388.827 by 8.000 s
saturated frame, t=268125388.827 - 268125396.827 402 (649/1051) seg=1111
frame time jump, t=268125396.827 - 268125404.827 by 8.000 s
saturated frame, t=268125404.827 - 268125412.827 219 (650/869) seg=1111
frame time jump, t=268125412.827 - 268125420.827 by 8.000 s
saturated frame, t=268125420.827 - 268125428.827 244 (649/893) seg=1111
frame time jump, t=268125428.827 - 268125436.827 by 8.000 s
saturated frame, t=268125436.827 - 268125444.827 238 (639/877) seg=1111
frame time jump, t=268125444.827 - 268125716.827 by 272.000 s
saturated frame, t=268127708.827 - 268127716.827 2914 (657/3571) seg=1111
frame time jump, t=268127716.827 - 268127724.827 by 8.000 s
saturated frame, t=268127724.827 - 268127732.827 988 (191/1179) seg=1111
frame time jump, t=268127732.827 - 268129828.826 by 2096.000 s
... 20% ( 137360 / 686805 events )
frame time jump, t=268133476.826 - 268135572.825 by 2096.000 s
... 30% ( 206040 / 686805 events )
frame time jump, t=268139236.825 - 268141324.825 by 2088.000 s
saturated frame, t=268144988.824 - 268144996.824 222 (422/644) seg=1111
frame time jump, t=268144996.824 - 268147020.824 by 2024.000 s
... 40% ( 274720 / 686805 events )
saturated frame, t=268150724.823 - 268150732.823 83 (649/732) seg=1111
frame time jump, t=268150732.823 - 268152836.823 by 2104.000 s
... 50% ( 343400 / 686805 events )
frame time jump, t=268156484.823 - 268158580.822 by 2096.000 s
frame time jump, t=268162244.822 - 268164300.822 by 2056.000 s
... 60% ( 412080 / 686805 events )
frame time jump, t=268165492.821 - 268165500.821 by 8.000 s
frame time jump, t=268165532.821 - 268165540.821 by 8.000 s
saturated frame, t=268165564.821 - 268165572.821 126 (514/640) seg=1111
frame time jump, t=268165572.821 - 268165580.821 by 8.000 s
saturated frame, t=268165588.821 - 268165596.821 52 (524/576) seg=1111
frame time jump, t=268165596.821 - 268165604.821 by 8.000 s
saturated frame, t=268165612.821 - 268165620.821 62 (515/577) seg=1111
frame time jump, t=268165620.821 - 268165628.821 by 8.000 s
frame time jump, t=268165636.821 - 268165644.821 by 8.000 s
frame time jump, t=268165652.821 - 268165660.821 by 8.000 s
frame time jump, t=268165668.821 - 268165676.821 by 8.000 s
frame time jump, t=268165684.821 - 268165692.821 by 8.000 s
frame time jump, t=268165700.821 - 268165708.821 by 8.000 s
frame time jump, t=268165716.821 - 268165724.821 by 8.000 s
saturated frame, t=268165724.821 - 268165732.821 13 (648/661) seg=1111
frame time jump, t=268165732.821 - 268165740.821 by 8.000 s
saturated frame, t=268165740.821 - 268165748.821 44 (645/689) seg=1111
frame time jump, t=268165748.821 - 268165756.821 by 8.000 s
saturated frame, t=268165756.821 - 268165764.821 29 (655/684) seg=1111
frame time jump, t=268165764.821 - 268165772.821 by 8.000 s
saturated frame, t=268165772.821 - 268165780.821 85 (652/737) seg=1111
frame time jump, t=268165780.821 - 268165788.821 by 8.000 s
saturated frame, t=268165788.821 - 268165796.821 35 (651/686) seg=1111
frame time jump, t=268165796.821 - 268165804.821 by 8.000 s
saturated frame, t=268165804.821 - 268165812.821 34 (651/685) seg=1111
frame time jump, t=268165812.821 - 268165820.821 by 8.000 s
saturated frame, t=268165820.821 - 268165828.821 17 (653/670) seg=1111
frame time jump, t=268165828.821 - 268165836.821 by 8.000 s
saturated frame, t=268165836.821 - 268165844.821 106 (650/756) seg=1111
frame time jump, t=268165844.821 - 268165852.821 by 8.000 s
saturated frame, t=268165852.821 - 268165860.821 129 (650/779) seg=1111
frame time jump, t=268165860.821 - 268165868.821 by 8.000 s
saturated frame, t=268165868.821 - 268165876.821 95 (654/749) seg=1111
frame time jump, t=268165876.821 - 268165884.821 by 8.000 s
saturated frame, t=268165884.821 - 268165892.821 121 (652/773) seg=1111
frame time jump, t=268165892.821 - 268165900.821 by 8.000 s
saturated frame, t=268165900.821 - 268165908.821 209 (650/859) seg=1111
frame time jump, t=268165908.821 - 268165916.821 by 8.000 s
saturated frame, t=268165916.821 - 268165924.821 100 (653/753) seg=1111
frame time jump, t=268165924.821 - 268165932.821 by 8.000 s
saturated frame, t=268165932.821 - 268165940.821 151 (653/804) seg=1111
frame time jump, t=268165940.821 - 268165948.821 by 8.000 s
saturated frame, t=268165948.821 - 268165956.821 176 (652/828) seg=1111
frame time jump, t=268165956.821 - 268165964.821 by 8.000 s
saturated frame, t=268165964.821 - 268165972.821 158 (652/810) seg=1111
frame time jump, t=268165972.821 - 268165980.821 by 8.000 s
saturated frame, t=268165980.821 - 268165988.821 172 (651/823) seg=1111
frame time jump, t=268165988.821 - 268165996.821 by 8.000 s
saturated frame, t=268165996.821 - 268166004.821 235 (652/887) seg=1111
frame time jump, t=268166004.821 - 268166012.821 by 8.000 s
saturated frame, t=268166012.821 - 268166020.821 245 (650/895) seg=1111
frame time jump, t=268166020.821 - 268166028.821 by 8.000 s
saturated frame, t=268166028.821 - 268166036.821 211 (651/862) seg=1111
frame time jump, t=268166036.821 - 268166044.821 by 8.000 s
saturated frame, t=268166044.821 - 268166052.821 254 (652/906) seg=1111
frame time jump, t=268166052.821 - 268166060.821 by 8.000 s
saturated frame, t=268166060.821 - 268166068.821 222 (653/875) seg=1111
frame time jump, t=268166068.821 - 268166076.821 by 8.000 s
saturated frame, t=268166076.821 - 268166084.821 217 (651/868) seg=1111
frame time jump, t=268166084.821 - 268166092.821 by 8.000 s
saturated frame, t=268166092.821 - 268166100.821 285 (648/933) seg=1111
frame time jump, t=268166100.821 - 268166108.821 by 8.000 s
saturated frame, t=268166108.821 - 268166116.821 228 (650/878) seg=1111
frame time jump, t=268166116.821 - 268166124.821 by 8.000 s
saturated frame, t=268166124.821 - 268166132.821 279 (651/930) seg=1111
frame time jump, t=268166132.821 - 268166140.821 by 8.000 s
saturated frame, t=268166140.821 - 268166148.821 309 (651/960) seg=1111
frame time jump, t=268166148.821 - 268166156.821 by 8.000 s
saturated frame, t=268166156.821 - 268166164.821 285 (650/935) seg=1111
frame time jump, t=268166164.821 - 268166172.821 by 8.000 s
saturated frame, t=268166172.821 - 268166180.821 263 (654/917) seg=1111
frame time jump, t=268166180.821 - 268166188.821 by 8.000 s
saturated frame, t=268166188.821 - 268166196.821 247 (649/896) seg=1111
frame time jump, t=268166196.821 - 268166204.821 by 8.000 s
saturated frame, t=268166204.821 - 268166212.821 263 (651/914) seg=1111
frame time jump, t=268166212.821 - 268166220.821 by 8.000 s
saturated frame, t=268166220.821 - 268166228.821 254 (651/905) seg=1111
frame time jump, t=268166228.821 - 268166236.821 by 8.000 s
saturated frame, t=268166236.821 - 268166244.821 322 (646/968) seg=1111
frame time jump, t=268166244.821 - 268166252.821 by 8.000 s
saturated frame, t=268166252.821 - 268166260.821 228 (650/878) seg=1111
frame time jump, t=268166260.821 - 268166268.821 by 8.000 s
saturated frame, t=268166268.821 - 268166276.821 277 (650/927) seg=1111
frame time jump, t=268166276.821 - 268166284.821 by 8.000 s
saturated frame, t=268166284.821 - 268166292.821 238 (653/891) seg=1111
frame time jump, t=268166292.821 - 268166300.821 by 8.000 s
saturated frame, t=268166300.821 - 268166308.821 303 (651/954) seg=1111
frame time jump, t=268166308.821 - 268166316.821 by 8.000 s
saturated frame, t=268166316.821 - 268166324.821 232 (649/881) seg=1111
frame time jump, t=268166324.821 - 268166332.821 by 8.000 s
saturated frame, t=268166332.821 - 268166340.821 286 (650/936) seg=1111
frame time jump, t=268166340.821 - 268166348.821 by 8.000 s
saturated frame, t=268166348.821 - 268166356.821 251 (650/901) seg=1111
frame time jump, t=268166356.821 - 268166364.821 by 8.000 s
saturated frame, t=268166364.821 - 268166372.821 316 (646/962) seg=1111
frame time jump, t=268166372.821 - 268166380.821 by 8.000 s
saturated frame, t=268166380.821 - 268166388.821 281 (650/931) seg=1111
frame time jump, t=268166388.821 - 268166396.821 by 8.000 s
saturated frame, t=268166396.821 - 268166404.821 265 (649/914) seg=1111
frame time jump, t=268166404.821 - 268166412.821 by 8.000 s
saturated frame, t=268166412.821 - 268166420.821 278 (650/928) seg=1111
... 70% ( 480760 / 686805 events )
frame time jump, t=268166420.821 - 268166428.821 by 8.000 s
saturated frame, t=268166428.821 - 268166436.821 255 (650/905) seg=1111
frame time jump, t=268166436.821 - 268166444.821 by 8.000 s
saturated frame, t=268166444.821 - 268166452.821 191 (651/842) seg=1111
frame time jump, t=268166452.821 - 268166460.821 by 8.000 s
saturated frame, t=268166460.821 - 268166468.821 278 (648/926) seg=1111
frame time jump, t=268166468.821 - 268166476.821 by 8.000 s
saturated frame, t=268166476.821 - 268166484.821 285 (651/936) seg=1111
frame time jump, t=268166484.821 - 268166492.821 by 8.000 s
saturated frame, t=268166492.821 - 268166500.821 271 (647/918) seg=1111
frame time jump, t=268166500.821 - 268166508.821 by 8.000 s
saturated frame, t=268166508.821 - 268166516.821 232 (651/883) seg=1111
frame time jump, t=268166516.821 - 268166524.821 by 8.000 s
saturated frame, t=268166524.821 - 268166532.821 240 (649/889) seg=1111
frame time jump, t=268166532.821 - 268166540.821 by 8.000 s
saturated frame, t=268166540.821 - 268166548.821 238 (649/887) seg=1111
frame time jump, t=268166548.821 - 268166556.821 by 8.000 s
saturated frame, t=268166556.821 - 268166564.821 245 (648/893) seg=1111
frame time jump, t=268166564.821 - 268166572.821 by 8.000 s
saturated frame, t=268166572.821 - 268166580.821 291 (641/932) seg=1111
frame time jump, t=268166580.821 - 268166588.821 by 8.000 s
saturated frame, t=268166588.821 - 268166596.821 223 (653/876) seg=1111
frame time jump, t=268166596.821 - 268166604.821 by 8.000 s
saturated frame, t=268166604.821 - 268166612.821 176 (651/827) seg=1111
frame time jump, t=268166612.821 - 268166620.821 by 8.000 s
saturated frame, t=268166620.821 - 268166628.821 252 (645/897) seg=1111
frame time jump, t=268166628.821 - 268166636.821 by 8.000 s
saturated frame, t=268166636.821 - 268166644.821 170 (650/820) seg=1111
frame time jump, t=268166644.821 - 268166652.821 by 8.000 s
saturated frame, t=268166652.821 - 268166660.821 169 (644/813) seg=1111
frame time jump, t=268166660.821 - 268166668.821 by 8.000 s
saturated frame, t=268166668.821 - 268166676.821 130 (650/780) seg=1111
frame time jump, t=268166676.821 - 268166684.821 by 8.000 s
saturated frame, t=268166684.821 - 268166692.821 159 (645/804) seg=1111
frame time jump, t=268166692.821 - 268166700.821 by 8.000 s
saturated frame, t=268166700.821 - 268166708.821 167 (649/816) seg=1111
frame time jump, t=268166708.821 - 268166716.821 by 8.000 s
saturated frame, t=268166716.821 - 268166724.821 96 (652/748) seg=1111
frame time jump, t=268166724.821 - 268166732.821 by 8.000 s
saturated frame, t=268166732.821 - 268166740.821 72 (649/721) seg=1111
frame time jump, t=268166740.821 - 268166748.821 by 8.000 s
saturated frame, t=268166748.821 - 268166756.821 112 (649/761) seg=1111
frame time jump, t=268166756.821 - 268166764.821 by 8.000 s
saturated frame, t=268166764.821 - 268166772.821 121 (645/766) seg=1111
frame time jump, t=268166772.821 - 268166780.821 by 8.000 s
saturated frame, t=268166780.821 - 268166788.821 87 (644/731) seg=1111
frame time jump, t=268166788.821 - 268166796.821 by 8.000 s
saturated frame, t=268166796.821 - 268166804.821 62 (644/706) seg=1111
frame time jump, t=268166804.821 - 268166812.821 by 8.000 s
saturated frame, t=268166812.821 - 268166820.821 32 (646/678) seg=1111
frame time jump, t=268166820.821 - 268166828.821 by 8.000 s
saturated frame, t=268166828.821 - 268166836.821 74 (645/719) seg=1111
frame time jump, t=268166836.821 - 268166844.821 by 8.000 s
saturated frame, t=268166844.821 - 268166852.821 120 (645/765) seg=1111
frame time jump, t=268166852.821 - 268166860.821 by 8.000 s
saturated frame, t=268166860.821 - 268166868.821 63 (647/710) seg=1111
frame time jump, t=268166868.821 - 268166876.821 by 8.000 s
saturated frame, t=268166876.821 - 268166884.821 66 (646/712) seg=1111
frame time jump, t=268166884.821 - 268166892.821 by 8.000 s
frame time jump, t=268166900.821 - 268166908.821 by 8.000 s
saturated frame, t=268166908.821 - 268166916.821 41 (648/689) seg=1111
frame time jump, t=268166916.821 - 268166924.821 by 8.000 s
frame time jump, t=268166932.821 - 268166940.821 by 8.000 s
saturated frame, t=268166940.821 - 268166948.821 31 (641/672) seg=1111
frame time jump, t=268166948.821 - 268166956.821 by 8.000 s
saturated frame, t=268166956.821 - 268166964.821 6 (642/648) seg=1111
frame time jump, t=268166964.821 - 268166972.821 by 8.000 s
saturated frame, t=268166972.821 - 268166980.821 32 (643/675) seg=1111
frame time jump, t=268166980.821 - 268166988.821 by 8.000 s
frame time jump, t=268166996.821 - 268167004.821 by 8.000 s
frame time jump, t=268167012.821 - 268167020.821 by 8.000 s
saturated frame, t=268167028.821 - 268167036.821 218 (477/695) seg=1111
frame time jump, t=268167036.821 - 268167044.821 by 8.000 s
saturated frame, t=268167044.821 - 268167052.821 44 (635/679) seg=1111
frame time jump, t=268167052.821 - 268167060.821 by 8.000 s
frame time jump, t=268167068.821 - 268167076.821 by 8.000 s
frame time jump, t=268167084.821 - 268167092.821 by 8.000 s
saturated frame, t=268167100.821 - 268167108.821 72 (489/561) seg=1111
frame time jump, t=268167108.821 - 268167116.821 by 8.000 s
frame time jump, t=268167124.821 - 268167132.821 by 8.000 s
frame time jump, t=268167140.821 - 268167148.821 by 8.000 s
saturated frame, t=268167156.821 - 268167164.821 33 (529/562) seg=1111
frame time jump, t=268167164.821 - 268167172.821 by 8.000 s
saturated frame, t=268167180.821 - 268167188.821 30 (543/573) seg=1111
frame time jump, t=268167188.821 - 268167196.821 by 8.000 s
saturated frame, t=268167204.821 - 268167212.821 14 (549/563) seg=1111
frame time jump, t=268167212.821 - 268167220.821 by 8.000 s
frame time jump, t=268167236.821 - 268167244.821 by 8.000 s
frame time jump, t=268167260.821 - 268167268.821 by 8.000 s
frame time jump, t=268167284.821 - 268167292.821 by 8.000 s
saturated frame, t=268167308.821 - 268167316.821 43 (484/527) seg=1111
frame time jump, t=268167316.821 - 268167324.821 by 8.000 s
frame time jump, t=268167348.821 - 268167356.821 by 8.000 s
frame time jump, t=268167380.821 - 268167388.821 by 8.000 s
frame time jump, t=268167412.821 - 268167420.821 by 8.000 s
frame time jump, t=268167444.821 - 268167452.821 by 8.000 s
saturated frame, t=268167564.821 - 268167572.821 18 (482/500) seg=1111
frame time jump, t=268167572.821 - 268167580.821 by 8.000 s
saturated frame, t=268167972.821 - 268167980.821 78 (650/728) seg=1111
frame time jump, t=268167980.821 - 268167988.821 by 8.000 s
frame time jump, t=268168004.821 - 268170092.821 by 2088.000 s
... 80% ( 549440 / 686805 events )
frame time jump, t=268171700.821 - 268171708.821 by 8.000 s
frame time jump, t=268171732.821 - 268171740.821 by 8.000 s
frame time jump, t=268171772.821 - 268171780.821 by 8.000 s
saturated frame, t=268171788.821 - 268171796.821 18 (534/552) seg=1111
frame time jump, t=268171796.821 - 268171804.821 by 8.000 s
frame time jump, t=268171836.821 - 268171844.821 by 8.000 s
saturated frame, t=268171860.821 - 268171868.821 62 (502/564) seg=1111
frame time jump, t=268171868.821 - 268171876.821 by 8.000 s
saturated frame, t=268171892.821 - 268171900.821 14 (495/509) seg=1111
frame time jump, t=268171900.821 - 268171908.821 by 8.000 s
frame time jump, t=268171924.821 - 268171932.821 by 8.000 s
frame time jump, t=268171948.821 - 268171956.821 by 8.000 s
frame time jump, t=268171972.821 - 268171980.821 by 8.000 s
saturated frame, t=268171988.821 - 268171996.821 49 (536/585) seg=1111
frame time jump, t=268171996.821 - 268172004.821 by 8.000 s
saturated frame, t=268172012.821 - 268172020.821 11 (549/560) seg=1111
frame time jump, t=268172020.821 - 268172028.821 by 8.000 s
saturated frame, t=268172044.821 - 268172052.821 63 (495/558) seg=1111
frame time jump, t=268172052.821 - 268172060.821 by 8.000 s
frame time jump, t=268172084.821 - 268172092.821 by 8.000 s
frame time jump, t=268172108.821 - 268172116.821 by 8.000 s
saturated frame, t=268172124.821 - 268172132.821 4 (544/548) seg=1111
frame time jump, t=268172132.821 - 268172140.821 by 8.000 s
frame time jump, t=268172164.821 - 268172172.821 by 8.000 s
frame time jump, t=268172188.821 - 268172196.821 by 8.000 s
frame time jump, t=268172220.821 - 268172228.821 by 8.000 s
frame time jump, t=268172244.820 - 268172252.820 by 8.000 s
frame time jump, t=268172316.820 - 268172324.820 by 8.000 s
... 90% ( 618120 / 686805 events )
frame time jump, t=268172412.820 - 268172420.820 by 8.000 s
saturated frame, t=268173740.820 - 268173748.820 624 (316/940) seg=1111
frame time jump, t=268173748.820 - 268175980.820 by 2232.000 s
... 100% ( 686805 / 686805 events )
XIScheckEventNo: GTI file 'ae703029010xi1_2_3x3n069.gti' created
N_FRAMES = 5114 / number of frames in the input event file
N_TESTED = 5089 / number of non-zero frames tested
N_PASSED = 4961 / number of frames passed the test
N_T_JUMP = 174 / number of frames detected time jump
N_SATURA = 128 / number of frames telemetry saturated
T_TESTED = 40712.000000 / exposure of non-zero frames tested
T_PASSED = 39688.000000 / exposure of frames passed the test
T_T_JUMP = 33383.994991 / loss of exposure due to time jump
T_SATURA = 1024.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 5115
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 5114/5115
[ 2] XISreadExp version 1.6
| OK: 5114/5114
[ 3] XISreadEvent version 2.7 <------- LOOP: 686805
| OK: 686805/691919 -------> SKIP: 5114
[ 4] XIScheckEventNo version 1.2
| OK: 686805/686805
GET: 686805
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
5114 : XISreadFrame:ENTRY
5114 : XISreadFrame:OK
1 : XISreadExp:BEGIN
5114 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
691919 : XISreadEvent:ENTRY
691918 : XISreadEvent:OK
5089 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
686805 : XIScheckEventNo:ENTRY
686805 : 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 9 9 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 5114 691919 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 5114 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 5114 691919 SINGLE
XIS:FRAMES:S_TIME 8 8 5114 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 5114 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 5114 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 5114 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 5114 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 5114 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 5114 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 5114 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 5114 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 5114 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 5114 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 5114 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 5114 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 5114 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 5114 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 5114 5089 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 5114 0 SINGLE
XIS:FRAMES:BIAS 16 16 5114 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 5114 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 5114 0 SINGLE
XIS:FRAMES:AEDATE 4 4 5114 691919 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 5114 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 5114 686805 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 5114 5089 SINGLE
XIS:FRAMES:TIME 8 8 5114 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 686805 686805 SINGLE
XIS:RAWX 4 4 686805 0 SINGLE
XIS:RAWY 4 4 686805 0 SINGLE
XIS:ACTX 4 4 686805 0 SINGLE
XIS:ACTY 4 4 686805 0 SINGLE
XIS:DETX 4 4 686805 0 SINGLE
XIS:DETY 4 4 686805 0 SINGLE
XIS:FOCX 4 4 686805 0 SINGLE
XIS:FOCY 4 4 686805 0 SINGLE
XIS:X 4 4 686805 0 SINGLE
XIS:Y 4 4 686805 0 SINGLE
XIS:STATUS 4 4 686805 0 SINGLE
XIS:PHAS 36 36 686805 0 SINGLE
XIS:PHANOCTI 4 4 686805 0 SINGLE
XIS:PHA 4 4 686805 0 SINGLE
XIS:PI 4 4 686805 0 SINGLE
XIS:GRADE 4 4 686805 0 SINGLE
XIS:P_OUTER_MOST 4 4 686805 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 686805 0 SINGLE
XIS:AEDATE 4 4 686805 691918 FAMILY
XIS:EXPTIME 4 4 686805 691918 FAMILY
XIS:EXPTIME_AETIME 8 8 686805 0 SINGLE
XIS:S_TIME 8 8 686805 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 686805 691918 FAMILY
XIS:EVENT_SEQ_NO 4 4 686805 691918 SINGLE
XIS:TIME 8 8 686805 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 686805 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 1.262 0.013 1.275 8.36
[ 2] XISreadExp 0.005 0.000 0.005 0.03
[ 3] XISreadEvent 12.897 0.398 13.295 87.20
[ 4] XIScheckEventNo 0.321 0.331 0.652 4.28
(others) 0.014 0.005 0.019 0.12
--------------------------------------------------------------------------
TOTAL 14.499 0.747 15.246 100.00
-> xisgtigen successful on ae703029010xi1_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 ae703029010xi1_2_5x5n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi1_2_5x5n069.fff.infile,f,a,"ae703029010xi1_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,"ae703029010.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 ae703029010xi1_2_5x5n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_2_5x5n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 220084 events )
... 10% ( 22008 / 220084 events )
... 20% ( 44016 / 220084 events )
... 30% ( 66024 / 220084 events )
... 40% ( 88032 / 220084 events )
Event... 100001 (100000)
... 50% ( 110040 / 220084 events )
... 60% ( 132048 / 220084 events )
... 70% ( 154056 / 220084 events )
... 80% ( 176064 / 220084 events )
... 90% ( 198072 / 220084 events )
Event... 200001 (200000)
... 100% ( 220084 / 220084 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268177324.819799 / time start
TSTOP = 268190692.817888 / time stop
TELAPASE = 13367.998089 / elapsed time = TSTOP - TSTART
ONTIME = 9647.998722 / on time = sum of all GTIs
LIVETIME = 9647.998722 / on-source time corrected for CCD exposure
EXPOSURE = 9647.998722 / exposure time
xisEventFitsUtil: rename ./fileK5N75i-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 220086
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 220085/220086
[ 2] XISreadExp version 1.6
| OK: 220085/220085
[ 3] XISreadEvent version 2.7
| OK: 220084/220085 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 220084/220084
[ 5] XISeditEventFits version 2.1
| OK: 220084/220084
GET: 220084
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
220085 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
220085 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
220085 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
220084 : XIStime:ENTRY
220084 : XIStime:OK
1 : XISeditEventFits:BEGIN
220084 : XISeditEventFits:ENTRY
220084 : 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 9 9 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 220084 220084 SINGLE
XIS:RAWX 4 4 220084 220084 SINGLE
XIS:RAWY 4 4 220084 220084 SINGLE
XIS:ACTX 4 4 220084 220084 SINGLE
XIS:ACTY 4 4 220084 220084 SINGLE
XIS:DETX 4 4 220084 220084 SINGLE
XIS:DETY 4 4 220084 220084 SINGLE
XIS:FOCX 4 4 220084 220084 SINGLE
XIS:FOCY 4 4 220084 220084 SINGLE
XIS:X 4 4 220084 220084 SINGLE
XIS:Y 4 4 220084 220084 SINGLE
XIS:STATUS 4 4 220084 220084 SINGLE
XIS:PHAS 100 100 220084 220084 SINGLE
XIS:PHANOCTI 4 4 220084 220084 SINGLE
XIS:PHA 4 4 220084 220084 SINGLE
XIS:PI 4 4 220084 220084 SINGLE
XIS:GRADE 4 4 220084 220084 SINGLE
XIS:AEDATE 4 4 440168 220084 FAMILY
XIS:EXPTIME 4 4 220084 440168 FAMILY
XIS:EXPTIME_AETIME 8 8 440168 220084 SINGLE
XIS:S_TIME 8 8 220084 440168 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 220084 440168 FAMILY
XIS:EVENT_SEQ_NO 4 4 220084 220084 SINGLE
XIS:TIME 8 8 440168 220084 SINGLE
XIS:EXP_CENT_AETIME 8 8 440168 220084 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 220086 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 0.122 0.274 3.37
[ 2] XISreadExp 0.072 0.107 0.179 2.20
[ 3] XISreadEvent 3.515 0.268 3.783 46.57
[ 4] XIStime 0.493 0.122 0.615 7.57
[ 5] XISeditEventFits 2.967 0.292 3.258 40.11
(others) 0.010 0.005 0.015 0.18
--------------------------------------------------------------------------
TOTAL 7.209 0.916 8.125 100.00
-> xistime successful on ae703029010xi1_2_5x5n069.sff.infile,f,a,"ae703029010xi1_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,"ae703029010.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 ae703029010xi1_2_5x5n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_2_5x5n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 812.29 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 794.92 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 220084 events )
... 10% ( 22008 / 220084 events )
... 20% ( 44016 / 220084 events )
... 30% ( 66024 / 220084 events )
... 40% ( 88032 / 220084 events )
Event... 100001 (100000)
... 50% ( 110040 / 220084 events )
... 60% ( 132048 / 220084 events )
... 70% ( 154056 / 220084 events )
... 80% ( 176064 / 220084 events )
... 90% ( 198072 / 220084 events )
Event... 200001 (200000)
... 100% ( 220084 / 220084 events )
xisEventFitsUtil: rename ./fileF7iyki-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 220086
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 220085/220086
[ 2] XISreadExp version 1.6
| OK: 220085/220085
[ 3] XISreadEvent version 2.7
| OK: 220084/220085 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 220084/220084
[ 5] XISeditEventFits version 2.1
| OK: 220084/220084
GET: 220084
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
220085 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
220085 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
220085 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
220084 : XIScoord:ENTRY
220084 : XIScoord:OK
1 : XISeditEventFits:BEGIN
220084 : XISeditEventFits:ENTRY
220084 : 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 9 9 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 220084 440168 SINGLE
XIS:RAWX 4 4 220084 440168 SINGLE
XIS:RAWY 4 4 220084 440168 SINGLE
XIS:ACTX 4 4 440168 220084 SINGLE
XIS:ACTY 4 4 440168 220084 SINGLE
XIS:DETX 4 4 440168 220084 SINGLE
XIS:DETY 4 4 440168 220084 SINGLE
XIS:FOCX 4 4 440168 220084 SINGLE
XIS:FOCY 4 4 440168 220084 SINGLE
XIS:X 4 4 440168 220084 SINGLE
XIS:Y 4 4 440168 220084 SINGLE
XIS:STATUS 4 4 220084 220084 SINGLE
XIS:PHAS 100 100 220084 220084 SINGLE
XIS:PHANOCTI 4 4 220084 220084 SINGLE
XIS:PHA 4 4 220084 220084 SINGLE
XIS:PI 4 4 220084 220084 SINGLE
XIS:GRADE 4 4 220084 220084 SINGLE
XIS:AEDATE 4 4 220084 220084 FAMILY
XIS:EXPTIME 4 4 220084 220084 FAMILY
XIS:EXPTIME_AETIME 8 8 220084 220084 SINGLE
XIS:S_TIME 8 8 220084 220084 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 220084 220084 FAMILY
XIS:EVENT_SEQ_NO 4 4 220084 220084 SINGLE
XIS:TIME 8 8 220084 440168 SINGLE
XIS:EXP_CENT_AETIME 8 8 220084 220084 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 220086 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 0.145 0.109 0.254 2.71
[ 2] XISreadExp 0.083 0.107 0.190 2.03
[ 3] XISreadEvent 3.465 0.200 3.665 39.10
[ 4] XIScoord 1.542 0.135 1.677 17.89
[ 5] XISeditEventFits 3.238 0.329 3.566 38.04
(others) 0.014 0.008 0.022 0.23
--------------------------------------------------------------------------
TOTAL 8.487 0.888 9.375 100.00
-> xiscoord successful on ae703029010xi1_2_5x5n069.sff.infile,f,a,"ae703029010xi1_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 ae703029010xi1_2_5x5n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_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 / 220084 events )
... 10% ( 22008 / 220084 events )
... 20% ( 44016 / 220084 events )
... 30% ( 66024 / 220084 events )
... 40% ( 88032 / 220084 events )
Event... 100001 (100000)
... 50% ( 110040 / 220084 events )
... 60% ( 132048 / 220084 events )
... 70% ( 154056 / 220084 events )
... 80% ( 176064 / 220084 events )
... 90% ( 198072 / 220084 events )
Event... 200001 (200000)
... 100% ( 220084 / 220084 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 3040 1.38
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 6689 3.04
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 379 0.17
B8 256 1PIX_FROM_SEGBOUNDARY 965 0.44
B9 512 SCI_3rd_TRAILING_ROW 2871 1.30
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 9420 4.28
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 1867 0.85
B16 65536 CALMASK 19428 8.83
B17 131072 SEGBOUNDARY 2233 1.01
B18 262144 SCI_2nd_TRAILING_ROW 3233 1.47
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 24170 10.98
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 2569 1.17
B29 536870912 SCI_TRAILING_ROW 87560 39.78
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 7 0.00
### 0 CLEAN_ZERO 92415 41.99
--------------------------------------------------------------
+++ 4294967295 SUM 256846 116.70
::: 524287 SAFE(B0-18) 115624 52.54
>>> 4294967295 TOTAL 220084 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filesrLYPP-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 220086
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 220085/220086
[ 2] XISreadExp version 1.6
| OK: 220085/220085
[ 3] XISreadEvent version 2.7
| OK: 220084/220085 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 220084/220084
[ 5] XISeditEventFits version 2.1
| OK: 220084/220084
GET: 220084
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
220085 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
220085 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
220085 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
220084 : XISputPixelQuality:ENTRY
220084 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
220084 : XISeditEventFits:ENTRY
220084 : 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 9 9 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 220084 220084 SINGLE
XIS:RAWX 4 4 220084 220084 SINGLE
XIS:RAWY 4 4 220084 440168 SINGLE
XIS:ACTX 4 4 220084 440168 SINGLE
XIS:ACTY 4 4 220084 440168 SINGLE
XIS:DETX 4 4 220084 220084 SINGLE
XIS:DETY 4 4 220084 220084 SINGLE
XIS:FOCX 4 4 220084 220084 SINGLE
XIS:FOCY 4 4 220084 220084 SINGLE
XIS:X 4 4 220084 220084 SINGLE
XIS:Y 4 4 220084 220084 SINGLE
XIS:STATUS 4 4 440168 220084 SINGLE
XIS:PHAS 100 100 220084 220084 SINGLE
XIS:PHANOCTI 4 4 220084 220084 SINGLE
XIS:PHA 4 4 220084 220084 SINGLE
XIS:PI 4 4 220084 220084 SINGLE
XIS:GRADE 4 4 220084 220084 SINGLE
XIS:AEDATE 4 4 220084 220084 FAMILY
XIS:EXPTIME 4 4 220084 220084 FAMILY
XIS:EXPTIME_AETIME 8 8 220084 220084 SINGLE
XIS:S_TIME 8 8 220084 220084 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 220084 220084 FAMILY
XIS:EVENT_SEQ_NO 4 4 220084 220084 SINGLE
XIS:TIME 8 8 220084 440168 SINGLE
XIS:EXP_CENT_AETIME 8 8 220084 220084 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 220086 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 0.172 0.114 0.286 3.62
[ 2] XISreadExp 0.062 0.105 0.167 2.11
[ 3] XISreadEvent 3.309 0.122 3.431 43.41
[ 4] XISputPixelQuality 0.336 0.125 0.461 5.83
[ 5] XISeditEventFits 3.123 0.419 3.541 44.80
(others) 0.012 0.006 0.018 0.23
--------------------------------------------------------------------------
TOTAL 7.014 0.891 7.905 100.00
-> xisputpixelquality successful on ae703029010xi1_2_5x5n069.sff.infile,f,a,"ae703029010xi1_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,"ae703029010xi1_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 ae703029010xi1_2_5x5n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_2_5x5n069.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-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 'ae703029010xi1_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 ae703029010xi1_0.hk, S1_VDCHK18_CAL, nrows=5196
nvalid=4939 nrej=257 time=268006979.3 - 268190697.3 [s]
AE-temp: average=18.929 sigma=1.294 min=16.842 max=22.656 [degC]
Event... 1 (0)
... 0% ( 0 / 220084 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 22008 / 220084 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 44016 / 220084 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 66024 / 220084 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 88032 / 220084 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 110040 / 220084 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 132048 / 220084 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 154056 / 220084 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 176064 / 220084 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 198072 / 220084 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 220084 / 220084 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileKy3AtF-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 220086
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 220085/220086
[ 2] XISreadExp version 1.6
| OK: 220085/220085
[ 3] XISreadEvent version 2.7
| OK: 220084/220085 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 220084/220084
[ 5] XIStrailCorrection version 3.1
| OK: 220084/220084
[ 6] XISctiCorrection version 3.4
| OK: 220084/220084
[ 7] XISgrade version 3.3
| OK: 220084/220084
[ 8] XISpha2pi version 3.2
| OK: 220084/220084
[ 9] XISeditEventFits version 2.1
| OK: 220084/220084
GET: 220084
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
220085 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
220085 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
220085 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
220084 : XISpreparePHASCORR:ENTRY
220084 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
220084 : XIStrailCorrection:ENTRY
220084 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
220084 : XISctiCorrection:ENTRY
220084 : XISctiCorrection:OK
1 : XISgrade:BEGIN
220084 : XISgrade:ENTRY
220084 : XISgrade:OK
1 : XISpha2pi:BEGIN
220084 : XISpha2pi:ENTRY
220084 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
220084 : XISeditEventFits:ENTRY
220084 : 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 880342 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 9 9 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 220084 1100420 SINGLE
XIS:RAWX 4 4 220084 660252 SINGLE
XIS:RAWY 4 4 220084 440168 SINGLE
XIS:ACTX 4 4 220084 220084 SINGLE
XIS:ACTY 4 4 220084 660252 SINGLE
XIS:DETX 4 4 220084 220084 SINGLE
XIS:DETY 4 4 220084 220084 SINGLE
XIS:FOCX 4 4 220084 220084 SINGLE
XIS:FOCY 4 4 220084 220084 SINGLE
XIS:X 4 4 220084 220084 SINGLE
XIS:Y 4 4 220084 220084 SINGLE
XIS:STATUS 4 4 220084 220084 SINGLE
XIS:PHAS 100 100 220084 440168 SINGLE
XIS:PHANOCTI 4 4 440168 220084 SINGLE
XIS:PHA 4 4 440168 220084 SINGLE
XIS:PI 4 4 440168 220084 SINGLE
XIS:GRADE 4 4 440168 220084 SINGLE
XIS:AEDATE 4 4 220084 220084 FAMILY
XIS:EXPTIME 4 4 220084 220084 FAMILY
XIS:EXPTIME_AETIME 8 8 220084 220084 SINGLE
XIS:S_TIME 8 8 220084 220084 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 220084 220084 FAMILY
XIS:EVENT_SEQ_NO 4 4 220084 220084 SINGLE
XIS:TIME 8 8 220084 1100420 SINGLE
XIS:EXP_CENT_AETIME 8 8 220084 220084 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 220086 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 440168 220084 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 220084 220084 SINGLE
XIS:PHASCORR 200 200 660252 660252 SINGLE
XIS:PHA:DOUBLE 8 8 220084 220084 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 0.195 0.110 0.305 1.64
[ 2] XISreadExp 0.072 0.110 0.182 0.98
[ 3] XISreadEvent 3.417 0.159 3.576 19.29
[ 4] XISpreparePHASCORR 0.203 0.109 0.312 1.68
[ 5] XIStrailCorrection 0.463 0.102 0.565 3.05
[ 6] XISctiCorrection 7.314 1.233 8.547 46.09
[ 7] XISgrade 0.738 0.111 0.849 4.58
[ 8] XISpha2pi 0.501 0.122 0.623 3.36
[ 9] XISeditEventFits 3.265 0.294 3.559 19.20
(others) 0.017 0.008 0.025 0.13
--------------------------------------------------------------------------
TOTAL 16.186 2.358 18.543 100.00
-> xispi successful on ae703029010xi1_2_5x5n069.sff.infile,f,a,"ae703029010xi1_2_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi1_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 ae703029010xi1_2_5x5n069.sff
OUTFILE ae703029010xi1_2_5x5n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi1_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 / 220084 events )
... 10% ( 22008 / 220084 events )
... 20% ( 44016 / 220084 events )
... 30% ( 66024 / 220084 events )
saturated frame, t=268179540.820 - 268179548.820 1189 (1453/2642) seg=1111
saturated frame, t=268179580.820 - 268179588.820 2703 (1455/4158) seg=1111
saturated frame, t=268179628.820 - 268179636.820 2148 (1452/3600) seg=1111
saturated frame, t=268179700.820 - 268179708.820 80 (1455/1535) seg=1111
saturated frame, t=268179724.819 - 268179732.819 1078 (1456/2534) seg=1111
... 40% ( 88032 / 220084 events )
frame time jump, t=268180108.819 - 268181676.819 by 1568.000 s
saturated frame, t=268181676.819 - 268181684.819 40776 (814/41590) seg=1111
saturated frame, t=268181684.819 - 268181692.819 37224 (808/38032) seg=1111
frame time jump, t=268181692.819 - 268181748.819 by 56.000 s
saturated frame, t=268181748.819 - 268181756.819 28813 (808/29621) seg=1111
frame time jump, t=268181820.819 - 268182084.819 by 264.000 s
... 50% ( 110040 / 220084 events )
... 60% ( 132048 / 220084 events )
... 70% ( 154056 / 220084 events )
saturated frame, t=268185412.819 - 268185420.819 1879 (1457/3336) seg=1111
saturated frame, t=268185436.819 - 268185444.819 1358 (1456/2814) seg=1111
saturated frame, t=268185516.819 - 268185524.819 8838 (1457/10295) seg=1111
... 80% ( 176064 / 220084 events )
frame time jump, t=268186308.819 - 268187828.818 by 1520.000 s
saturated frame, t=268187828.818 - 268187836.818 40566 (821/41387) seg=1111
saturated frame, t=268187836.818 - 268187844.818 37402 (808/38210) seg=1111
frame time jump, t=268187844.818 - 268187892.818 by 48.000 s
saturated frame, t=268187892.818 - 268187900.818 28869 (808/29677) seg=1111
frame time jump, t=268187972.818 - 268188236.818 by 264.000 s
... 90% ( 198072 / 220084 events )
... 100% ( 220084 / 220084 events )
XIScheckEventNo: GTI file 'ae703029010xi1_2_5x5n069.gti' created
N_FRAMES = 1219 / number of frames in the input event file
N_TESTED = 1206 / number of non-zero frames tested
N_PASSED = 1192 / number of frames passed the test
N_T_JUMP = 6 / number of frames detected time jump
N_SATURA = 14 / number of frames telemetry saturated
T_TESTED = 9648.000000 / exposure of non-zero frames tested
T_PASSED = 9536.000000 / exposure of frames passed the test
T_T_JUMP = 3719.999368 / 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: 1220
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 1219/1220
[ 2] XISreadExp version 1.6
| OK: 1219/1219
[ 3] XISreadEvent version 2.7 <------- LOOP: 220084
| OK: 220084/221303 -------> SKIP: 1219
[ 4] XIScheckEventNo version 1.2
| OK: 220084/220084
GET: 220084
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
1219 : XISreadFrame:ENTRY
1219 : XISreadFrame:OK
1 : XISreadExp:BEGIN
1219 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
221303 : XISreadEvent:ENTRY
221302 : XISreadEvent:OK
1206 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
220084 : XIScheckEventNo:ENTRY
220084 : 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 9 9 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 1219 221303 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 1219 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 1219 221303 SINGLE
XIS:FRAMES:S_TIME 8 8 1219 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 1219 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 1219 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 1219 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 1219 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 1219 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 1219 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 1219 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 1219 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 1219 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 1219 1206 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 1219 0 SINGLE
XIS:FRAMES:BIAS 16 16 1219 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 1219 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 1219 0 SINGLE
XIS:FRAMES:AEDATE 4 4 1219 221303 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 1219 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 1219 220084 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 1219 1206 SINGLE
XIS:FRAMES:TIME 8 8 1219 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 220084 220084 SINGLE
XIS:RAWX 4 4 220084 0 SINGLE
XIS:RAWY 4 4 220084 0 SINGLE
XIS:ACTX 4 4 220084 0 SINGLE
XIS:ACTY 4 4 220084 0 SINGLE
XIS:DETX 4 4 220084 0 SINGLE
XIS:DETY 4 4 220084 0 SINGLE
XIS:FOCX 4 4 220084 0 SINGLE
XIS:FOCY 4 4 220084 0 SINGLE
XIS:X 4 4 220084 0 SINGLE
XIS:Y 4 4 220084 0 SINGLE
XIS:STATUS 4 4 220084 0 SINGLE
XIS:PHAS 100 100 220084 0 SINGLE
XIS:PHANOCTI 4 4 220084 0 SINGLE
XIS:PHA 4 4 220084 0 SINGLE
XIS:PI 4 4 220084 0 SINGLE
XIS:GRADE 4 4 220084 0 SINGLE
XIS:AEDATE 4 4 220084 221302 FAMILY
XIS:EXPTIME 4 4 220084 221302 FAMILY
XIS:EXPTIME_AETIME 8 8 220084 0 SINGLE
XIS:S_TIME 8 8 220084 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 220084 221302 FAMILY
XIS:EVENT_SEQ_NO 4 4 220084 221302 SINGLE
XIS:TIME 8 8 220084 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 220084 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 0.284 0.012 0.296 6.48
[ 2] XISreadExp 0.002 0.000 0.002 0.04
[ 3] XISreadEvent 3.805 0.217 4.022 88.09
[ 4] XIScheckEventNo 0.114 0.112 0.226 4.95
(others) 0.011 0.009 0.020 0.44
--------------------------------------------------------------------------
TOTAL 4.216 0.350 4.566 100.00
-> xisgtigen successful on ae703029010xi1_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 ae703029010xi3_1_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi3_1_3x3n066.fff.infile,f,a,"ae703029010xi3_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,"ae703029010.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 ae703029010xi3_1_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_1_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 316935 events )
... 10% ( 31693 / 316935 events )
... 20% ( 63386 / 316935 events )
... 30% ( 95079 / 316935 events )
Event... 100001 (100000)
... 40% ( 126772 / 316935 events )
... 50% ( 158465 / 316935 events )
... 60% ( 190158 / 316935 events )
Event... 200001 (200000)
... 70% ( 221851 / 316935 events )
... 80% ( 253544 / 316935 events )
... 90% ( 285237 / 316935 events )
Event... 300001 (300000)
... 100% ( 316935 / 316935 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268023836.840621 / time start
TSTOP = 268103228.829844 / time stop
TELAPASE = 79391.989223 / elapsed time = TSTOP - TSTART
ONTIME = 44735.994390 / on time = sum of all GTIs
LIVETIME = 44735.994390 / on-source time corrected for CCD exposure
EXPOSURE = 44735.994390 / exposure time
xisEventFitsUtil: rename ./filejlEbhc-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 316937
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 316936/316937
[ 2] XISreadExp version 1.6
| OK: 316936/316936
[ 3] XISreadEvent version 2.7
| OK: 316935/316936 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 316935/316935
[ 5] XISeditEventFits version 2.1
| OK: 316935/316935
GET: 316935
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
316936 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
316936 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
316936 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
316935 : XIStime:ENTRY
316935 : XIStime:OK
1 : XISeditEventFits:BEGIN
316935 : XISeditEventFits:ENTRY
316935 : 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 9 9 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 316935 316935 SINGLE
XIS:RAWX 4 4 316935 316935 SINGLE
XIS:RAWY 4 4 316935 316935 SINGLE
XIS:ACTX 4 4 316935 316935 SINGLE
XIS:ACTY 4 4 316935 316935 SINGLE
XIS:DETX 4 4 316935 316935 SINGLE
XIS:DETY 4 4 316935 316935 SINGLE
XIS:FOCX 4 4 316935 316935 SINGLE
XIS:FOCY 4 4 316935 316935 SINGLE
XIS:X 4 4 316935 316935 SINGLE
XIS:Y 4 4 316935 316935 SINGLE
XIS:STATUS 4 4 316935 316935 SINGLE
XIS:PHAS 36 36 316935 316935 SINGLE
XIS:PHANOCTI 4 4 316935 316935 SINGLE
XIS:PHA 4 4 316935 316935 SINGLE
XIS:PI 4 4 316935 316935 SINGLE
XIS:GRADE 4 4 316935 316935 SINGLE
XIS:P_OUTER_MOST 4 4 316935 316935 SINGLE
XIS:SUM_OUTER_MOST 4 4 316935 316935 SINGLE
XIS:AEDATE 4 4 633870 316935 FAMILY
XIS:EXPTIME 4 4 316935 633870 FAMILY
XIS:EXPTIME_AETIME 8 8 633870 316935 SINGLE
XIS:S_TIME 8 8 316935 633870 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 316935 633870 FAMILY
XIS:EVENT_SEQ_NO 4 4 316935 316935 SINGLE
XIS:TIME 8 8 633870 316935 SINGLE
XIS:EXP_CENT_AETIME 8 8 633870 316935 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 316937 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 0.187 0.157 0.344 2.71
[ 2] XISreadExp 0.111 0.145 0.256 2.02
[ 3] XISreadEvent 5.342 0.340 5.682 44.73
[ 4] XIStime 0.807 0.180 0.987 7.77
[ 5] XISeditEventFits 4.924 0.491 5.415 42.63
(others) 0.010 0.008 0.018 0.14
--------------------------------------------------------------------------
TOTAL 11.381 1.321 12.702 100.00
-> xistime successful on ae703029010xi3_1_3x3n066.sff.infile,f,a,"ae703029010xi3_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,"ae703029010.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 ae703029010xi3_1_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_1_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 723.52 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 749.04 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 316935 events )
... 10% ( 31693 / 316935 events )
... 20% ( 63386 / 316935 events )
... 30% ( 95079 / 316935 events )
Event... 100001 (100000)
... 40% ( 126772 / 316935 events )
... 50% ( 158465 / 316935 events )
... 60% ( 190158 / 316935 events )
Event... 200001 (200000)
... 70% ( 221851 / 316935 events )
... 80% ( 253544 / 316935 events )
... 90% ( 285237 / 316935 events )
Event... 300001 (300000)
... 100% ( 316935 / 316935 events )
xisEventFitsUtil: rename ./fileqKgxFA-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 316937
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 316936/316937
[ 2] XISreadExp version 1.6
| OK: 316936/316936
[ 3] XISreadEvent version 2.7
| OK: 316935/316936 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 316935/316935
[ 5] XISeditEventFits version 2.1
| OK: 316935/316935
GET: 316935
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
316936 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
316936 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
316936 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
316935 : XIScoord:ENTRY
316935 : XIScoord:OK
1 : XISeditEventFits:BEGIN
316935 : XISeditEventFits:ENTRY
316935 : 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 9 9 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 316935 633870 SINGLE
XIS:RAWX 4 4 316935 633870 SINGLE
XIS:RAWY 4 4 316935 633870 SINGLE
XIS:ACTX 4 4 633870 316935 SINGLE
XIS:ACTY 4 4 633870 316935 SINGLE
XIS:DETX 4 4 633870 316935 SINGLE
XIS:DETY 4 4 633870 316935 SINGLE
XIS:FOCX 4 4 633870 316935 SINGLE
XIS:FOCY 4 4 633870 316935 SINGLE
XIS:X 4 4 633870 316935 SINGLE
XIS:Y 4 4 633870 316935 SINGLE
XIS:STATUS 4 4 316935 316935 SINGLE
XIS:PHAS 36 36 316935 316935 SINGLE
XIS:PHANOCTI 4 4 316935 316935 SINGLE
XIS:PHA 4 4 316935 316935 SINGLE
XIS:PI 4 4 316935 316935 SINGLE
XIS:GRADE 4 4 316935 316935 SINGLE
XIS:P_OUTER_MOST 4 4 316935 316935 SINGLE
XIS:SUM_OUTER_MOST 4 4 316935 316935 SINGLE
XIS:AEDATE 4 4 316935 316935 FAMILY
XIS:EXPTIME 4 4 316935 316935 FAMILY
XIS:EXPTIME_AETIME 8 8 316935 316935 SINGLE
XIS:S_TIME 8 8 316935 316935 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 316935 316935 FAMILY
XIS:EVENT_SEQ_NO 4 4 316935 316935 SINGLE
XIS:TIME 8 8 316935 633870 SINGLE
XIS:EXP_CENT_AETIME 8 8 316935 316935 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 316937 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 0.264 0.176 0.440 3.02
[ 2] XISreadExp 0.064 0.207 0.271 1.86
[ 3] XISreadEvent 5.469 0.277 5.746 39.47
[ 4] XIScoord 2.316 0.219 2.535 17.41
[ 5] XISeditEventFits 5.039 0.503 5.542 38.07
(others) 0.015 0.008 0.023 0.16
--------------------------------------------------------------------------
TOTAL 13.167 1.390 14.557 100.00
-> xiscoord successful on ae703029010xi3_1_3x3n066.sff.infile,f,a,"ae703029010xi3_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 ae703029010xi3_1_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_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 / 316935 events )
... 10% ( 31693 / 316935 events )
... 20% ( 63386 / 316935 events )
... 30% ( 95079 / 316935 events )
Event... 100001 (100000)
... 40% ( 126772 / 316935 events )
... 50% ( 158465 / 316935 events )
... 60% ( 190158 / 316935 events )
Event... 200001 (200000)
... 70% ( 221851 / 316935 events )
... 80% ( 253544 / 316935 events )
... 90% ( 285237 / 316935 events )
Event... 300001 (300000)
... 100% ( 316935 / 316935 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 4834 1.53
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 12789 4.04
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 3048 0.96
B8 256 1PIX_FROM_SEGBOUNDARY 1726 0.54
B9 512 SCI_3rd_TRAILING_ROW 4290 1.35
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 14811 4.67
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 4612 1.46
B16 65536 CALMASK 40029 12.63
B17 131072 SEGBOUNDARY 6471 2.04
B18 262144 SCI_2nd_TRAILING_ROW 4402 1.39
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 11846 3.74
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 37562 11.85
B29 536870912 SCI_TRAILING_ROW 36998 11.67
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 58 0.02
### 0 CLEAN_ZERO 167708 52.92
--------------------------------------------------------------
+++ 4294967295 SUM 351184 110.81
::: 524287 SAFE(B0-18) 233003 73.52
>>> 4294967295 TOTAL 316935 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileQZV1Nb-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 316937
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 316936/316937
[ 2] XISreadExp version 1.6
| OK: 316936/316936
[ 3] XISreadEvent version 2.7
| OK: 316935/316936 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 316935/316935
[ 5] XISeditEventFits version 2.1
| OK: 316935/316935
GET: 316935
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
316936 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
316936 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
316936 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
316935 : XISputPixelQuality:ENTRY
316935 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
316935 : XISeditEventFits:ENTRY
316935 : 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 9 9 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 316935 316935 SINGLE
XIS:RAWX 4 4 316935 316935 SINGLE
XIS:RAWY 4 4 316935 633870 SINGLE
XIS:ACTX 4 4 316935 633870 SINGLE
XIS:ACTY 4 4 316935 633870 SINGLE
XIS:DETX 4 4 316935 316935 SINGLE
XIS:DETY 4 4 316935 316935 SINGLE
XIS:FOCX 4 4 316935 316935 SINGLE
XIS:FOCY 4 4 316935 316935 SINGLE
XIS:X 4 4 316935 316935 SINGLE
XIS:Y 4 4 316935 316935 SINGLE
XIS:STATUS 4 4 633870 316935 SINGLE
XIS:PHAS 36 36 316935 316935 SINGLE
XIS:PHANOCTI 4 4 316935 316935 SINGLE
XIS:PHA 4 4 316935 316935 SINGLE
XIS:PI 4 4 316935 316935 SINGLE
XIS:GRADE 4 4 316935 316935 SINGLE
XIS:P_OUTER_MOST 4 4 316935 316935 SINGLE
XIS:SUM_OUTER_MOST 4 4 316935 316935 SINGLE
XIS:AEDATE 4 4 316935 316935 FAMILY
XIS:EXPTIME 4 4 316935 316935 FAMILY
XIS:EXPTIME_AETIME 8 8 316935 316935 SINGLE
XIS:S_TIME 8 8 316935 316935 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 316935 316935 FAMILY
XIS:EVENT_SEQ_NO 4 4 316935 316935 SINGLE
XIS:TIME 8 8 316935 633870 SINGLE
XIS:EXP_CENT_AETIME 8 8 316935 316935 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 316937 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 0.216 0.138 0.354 2.97
[ 2] XISreadExp 0.094 0.126 0.220 1.85
[ 3] XISreadEvent 5.104 0.190 5.294 44.48
[ 4] XISputPixelQuality 0.474 0.156 0.630 5.29
[ 5] XISeditEventFits 4.864 0.522 5.386 45.26
(others) 0.005 0.012 0.017 0.14
--------------------------------------------------------------------------
TOTAL 10.757 1.144 11.901 100.00
-> xisputpixelquality successful on ae703029010xi3_1_3x3n066.sff.infile,f,a,"ae703029010xi3_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,"ae703029010xi3_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 ae703029010xi3_1_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_1_3x3n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-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 'ae703029010xi3_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 ae703029010xi3_0.hk, S3_VDCHK18_CAL, nrows=5196
nvalid=4945 nrej=251 time=268006987.3 - 268190705.3 [s]
AE-temp: average=15.152 sigma=0.957 min=13.172 max=17.889 [degC]
Event... 1 (0)
... 0% ( 0 / 316935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 31693 / 316935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 63386 / 316935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 95079 / 316935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 126772 / 316935 events )
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 158465 / 316935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 190158 / 316935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 221851 / 316935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 253544 / 316935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 285237 / 316935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 316935 / 316935 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileZw00wz-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 316937
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 316936/316937
[ 2] XISreadExp version 1.6
| OK: 316936/316936
[ 3] XISreadEvent version 2.7
| OK: 316935/316936 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 316935/316935
[ 5] XIStrailCorrection version 3.1
| OK: 316935/316935
[ 6] XISctiCorrection version 3.4
| OK: 316935/316935
[ 7] XISgrade version 3.3
| OK: 316935/316935
[ 8] XISpha2pi version 3.2
| OK: 316935/316935
[ 9] XISeditEventFits version 2.1
| OK: 316935/316935
GET: 316935
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
316936 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
316936 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
316936 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
316935 : XISpreparePHASCORR:ENTRY
316935 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
316935 : XIStrailCorrection:ENTRY
316935 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
316935 : XISctiCorrection:ENTRY
316935 : XISctiCorrection:OK
1 : XISgrade:BEGIN
316935 : XISgrade:ENTRY
316935 : XISgrade:OK
1 : XISpha2pi:BEGIN
316935 : XISpha2pi:ENTRY
316935 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
316935 : XISeditEventFits:ENTRY
316935 : 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 1267746 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 9 9 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 316935 1584675 SINGLE
XIS:RAWX 4 4 316935 950805 SINGLE
XIS:RAWY 4 4 316935 633870 SINGLE
XIS:ACTX 4 4 316935 316935 SINGLE
XIS:ACTY 4 4 316935 950805 SINGLE
XIS:DETX 4 4 316935 316935 SINGLE
XIS:DETY 4 4 316935 316935 SINGLE
XIS:FOCX 4 4 316935 316935 SINGLE
XIS:FOCY 4 4 316935 316935 SINGLE
XIS:X 4 4 316935 316935 SINGLE
XIS:Y 4 4 316935 316935 SINGLE
XIS:STATUS 4 4 316935 316935 SINGLE
XIS:PHAS 36 36 316935 633870 SINGLE
XIS:PHANOCTI 4 4 633870 316935 SINGLE
XIS:PHA 4 4 633870 316935 SINGLE
XIS:PI 4 4 633870 316935 SINGLE
XIS:GRADE 4 4 633870 316935 SINGLE
XIS:P_OUTER_MOST 4 4 316935 633870 SINGLE
XIS:SUM_OUTER_MOST 4 4 316935 633870 SINGLE
XIS:AEDATE 4 4 316935 316935 FAMILY
XIS:EXPTIME 4 4 316935 316935 FAMILY
XIS:EXPTIME_AETIME 8 8 316935 316935 SINGLE
XIS:S_TIME 8 8 316935 316935 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 316935 316935 FAMILY
XIS:EVENT_SEQ_NO 4 4 316935 316935 SINGLE
XIS:TIME 8 8 316935 1584675 SINGLE
XIS:EXP_CENT_AETIME 8 8 316935 316935 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 316937 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 633870 316935 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 316935 316935 SINGLE
XIS:PHASCORR 72 72 950805 950805 SINGLE
XIS:PHA:DOUBLE 8 8 316935 316935 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 0.299 0.181 0.480 1.43
[ 2] XISreadExp 0.106 0.154 0.260 0.77
[ 3] XISreadEvent 5.394 0.440 5.834 17.33
[ 4] XISpreparePHASCORR 0.261 0.183 0.444 1.32
[ 5] XIStrailCorrection 0.694 0.190 0.884 2.63
[ 6] XISctiCorrection 12.053 5.954 18.007 53.48
[ 7] XISgrade 1.075 0.198 1.273 3.78
[ 8] XISpha2pi 0.711 0.228 0.939 2.79
[ 9] XISeditEventFits 4.948 0.572 5.520 16.40
(others) 0.017 0.010 0.027 0.08
--------------------------------------------------------------------------
TOTAL 25.558 8.110 33.668 100.00
-> xispi successful on ae703029010xi3_1_3x3n066.sff.infile,f,a,"ae703029010xi3_1_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi3_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 ae703029010xi3_1_3x3n066.sff
OUTFILE ae703029010xi3_1_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi3_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 / 316935 events )
frame time jump, t=268024188.841 - 268027236.840 by 3048.000 s
frame time jump, t=268027380.840 - 268027644.840 by 264.000 s
frame time jump, t=268029948.840 - 268033212.839 by 3264.000 s
frame time jump, t=268033348.839 - 268033612.839 by 264.000 s
saturated frame, t=268035684.839 - 268035692.839 2598 (506/3104) seg=1111
frame time jump, t=268035692.839 - 268035700.839 by 8.000 s
saturated frame, t=268035700.839 - 268035708.839 2084 (149/2233) seg=1111
frame time jump, t=268035708.839 - 268037772.839 by 2064.000 s
... 10% ( 31693 / 316935 events )
frame time jump, t=268038180.839 - 268039092.839 by 912.000 s
frame time jump, t=268039228.838 - 268039492.838 by 264.000 s
saturated frame, t=268041436.838 - 268041444.838 1068 (507/1575) seg=1111
frame time jump, t=268041444.838 - 268041452.838 by 8.000 s
saturated frame, t=268041452.838 - 268041460.838 1085 (507/1592) seg=1111
frame time jump, t=268041460.838 - 268041468.838 by 8.000 s
saturated frame, t=268041468.838 - 268041476.838 1997 (504/2501) seg=1111
frame time jump, t=268041476.838 - 268043532.838 by 2056.000 s
frame time jump, t=268044372.838 - 268044548.838 by 176.000 s
frame time jump, t=268044692.838 - 268044956.838 by 264.000 s
... 20% ( 63386 / 316935 events )
frame time jump, t=268047196.837 - 268049284.837 by 2088.000 s
frame time jump, t=268052956.837 - 268055044.836 by 2088.000 s
... 30% ( 95079 / 316935 events )
frame time jump, t=268058716.836 - 268060804.836 by 2088.000 s
... 40% ( 126772 / 316935 events )
frame time jump, t=268064460.835 - 268066548.835 by 2088.000 s
... 50% ( 158465 / 316935 events )
frame time jump, t=268070204.834 - 268072292.834 by 2088.000 s
... 60% ( 190158 / 316935 events )
frame time jump, t=268075964.834 - 268078052.833 by 2088.000 s
... 70% ( 221851 / 316935 events )
frame time jump, t=268081724.833 - 268083812.832 by 2088.000 s
... 80% ( 253544 / 316935 events )
saturated frame, t=268087452.832 - 268087460.832 499 (508/1007) seg=1111
frame time jump, t=268087460.832 - 268089684.832 by 2224.000 s
... 90% ( 285237 / 316935 events )
frame time jump, t=268093220.831 - 268095372.831 by 2152.000 s
frame time jump, t=268095508.831 - 268095772.831 by 264.000 s
frame time jump, t=268098980.830 - 268101516.830 by 2536.000 s
frame time jump, t=268101660.830 - 268101924.830 by 264.000 s
... 100% ( 316935 / 316935 events )
XIScheckEventNo: GTI file 'ae703029010xi3_1_3x3n066.gti' created
N_FRAMES = 5592 / number of frames in the input event file
N_TESTED = 5592 / number of non-zero frames tested
N_PASSED = 5586 / number of frames passed the test
N_T_JUMP = 25 / number of frames detected time jump
N_SATURA = 6 / number of frames telemetry saturated
T_TESTED = 44736.000000 / exposure of non-zero frames tested
T_PASSED = 44688.000000 / exposure of frames passed the test
T_T_JUMP = 34655.994833 / loss of exposure due to time jump
T_SATURA = 48.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 5593
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 5592/5593
[ 2] XISreadExp version 1.6
| OK: 5592/5592
[ 3] XISreadEvent version 2.7 <------- LOOP: 316935
| OK: 316935/322527 -------> SKIP: 5592
[ 4] XIScheckEventNo version 1.2
| OK: 316935/316935
GET: 316935
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
5592 : XISreadFrame:ENTRY
5592 : XISreadFrame:OK
1 : XISreadExp:BEGIN
5592 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
322527 : XISreadEvent:ENTRY
322526 : XISreadEvent:OK
5592 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
316935 : XIScheckEventNo:ENTRY
316935 : 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 9 9 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 5592 322527 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 5592 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 5592 322527 SINGLE
XIS:FRAMES:S_TIME 8 8 5592 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 5592 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 5592 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 5592 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 5592 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 5592 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 5592 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 5592 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 5592 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 5592 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 5592 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 5592 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 5592 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 5592 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 5592 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 5592 5592 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 5592 0 SINGLE
XIS:FRAMES:BIAS 16 16 5592 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 5592 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 5592 0 SINGLE
XIS:FRAMES:AEDATE 4 4 5592 322527 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 5592 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 5592 316935 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 5592 5592 SINGLE
XIS:FRAMES:TIME 8 8 5592 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 316935 316935 SINGLE
XIS:RAWX 4 4 316935 0 SINGLE
XIS:RAWY 4 4 316935 0 SINGLE
XIS:ACTX 4 4 316935 0 SINGLE
XIS:ACTY 4 4 316935 0 SINGLE
XIS:DETX 4 4 316935 0 SINGLE
XIS:DETY 4 4 316935 0 SINGLE
XIS:FOCX 4 4 316935 0 SINGLE
XIS:FOCY 4 4 316935 0 SINGLE
XIS:X 4 4 316935 0 SINGLE
XIS:Y 4 4 316935 0 SINGLE
XIS:STATUS 4 4 316935 0 SINGLE
XIS:PHAS 36 36 316935 0 SINGLE
XIS:PHANOCTI 4 4 316935 0 SINGLE
XIS:PHA 4 4 316935 0 SINGLE
XIS:PI 4 4 316935 0 SINGLE
XIS:GRADE 4 4 316935 0 SINGLE
XIS:P_OUTER_MOST 4 4 316935 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 316935 0 SINGLE
XIS:AEDATE 4 4 316935 322526 FAMILY
XIS:EXPTIME 4 4 316935 322526 FAMILY
XIS:EXPTIME_AETIME 8 8 316935 0 SINGLE
XIS:S_TIME 8 8 316935 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 316935 322526 FAMILY
XIS:EVENT_SEQ_NO 4 4 316935 322526 SINGLE
XIS:TIME 8 8 316935 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 316935 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 1.382 0.040 1.422 14.99
[ 2] XISreadExp 0.003 0.003 0.006 0.06
[ 3] XISreadEvent 7.347 0.355 7.702 81.21
[ 4] XIScheckEventNo 0.166 0.168 0.334 3.52
(others) 0.013 0.007 0.020 0.21
--------------------------------------------------------------------------
TOTAL 8.911 0.573 9.484 100.00
-> xisgtigen successful on ae703029010xi3_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 ae703029010xi3_1_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi3_1_5x5n066.fff.infile,f,a,"ae703029010xi3_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,"ae703029010.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 ae703029010xi3_1_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_1_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 76155 events )
... 10% ( 7615 / 76155 events )
... 20% ( 15230 / 76155 events )
... 30% ( 22845 / 76155 events )
... 40% ( 30460 / 76155 events )
... 50% ( 38075 / 76155 events )
... 60% ( 45690 / 76155 events )
... 70% ( 53305 / 76155 events )
... 80% ( 60920 / 76155 events )
... 90% ( 68535 / 76155 events )
... 100% ( 76155 / 76155 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268006980.842801 / time start
TSTOP = 268023836.840622 / time stop
TELAPASE = 16855.997821 / elapsed time = TSTOP - TSTART
ONTIME = 11159.998679 / on time = sum of all GTIs
LIVETIME = 11159.998679 / on-source time corrected for CCD exposure
EXPOSURE = 11159.998679 / exposure time
xisEventFitsUtil: rename ./filefrUeQt-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 76157
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 76156/76157
[ 2] XISreadExp version 1.6
| OK: 76156/76156
[ 3] XISreadEvent version 2.7
| OK: 76155/76156 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 76155/76155
[ 5] XISeditEventFits version 2.1
| OK: 76155/76155
GET: 76155
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
76156 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
76156 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
76156 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
76155 : XIStime:ENTRY
76155 : XIStime:OK
1 : XISeditEventFits:BEGIN
76155 : XISeditEventFits:ENTRY
76155 : 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 9 9 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 76155 76155 SINGLE
XIS:RAWX 4 4 76155 76155 SINGLE
XIS:RAWY 4 4 76155 76155 SINGLE
XIS:ACTX 4 4 76155 76155 SINGLE
XIS:ACTY 4 4 76155 76155 SINGLE
XIS:DETX 4 4 76155 76155 SINGLE
XIS:DETY 4 4 76155 76155 SINGLE
XIS:FOCX 4 4 76155 76155 SINGLE
XIS:FOCY 4 4 76155 76155 SINGLE
XIS:X 4 4 76155 76155 SINGLE
XIS:Y 4 4 76155 76155 SINGLE
XIS:STATUS 4 4 76155 76155 SINGLE
XIS:PHAS 100 100 76155 76155 SINGLE
XIS:PHANOCTI 4 4 76155 76155 SINGLE
XIS:PHA 4 4 76155 76155 SINGLE
XIS:PI 4 4 76155 76155 SINGLE
XIS:GRADE 4 4 76155 76155 SINGLE
XIS:AEDATE 4 4 152310 76155 FAMILY
XIS:EXPTIME 4 4 76155 152310 FAMILY
XIS:EXPTIME_AETIME 8 8 152310 76155 SINGLE
XIS:S_TIME 8 8 76155 152310 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 76155 152310 FAMILY
XIS:EVENT_SEQ_NO 4 4 76155 76155 SINGLE
XIS:TIME 8 8 152310 76155 SINGLE
XIS:EXP_CENT_AETIME 8 8 152310 76155 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 76157 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 0.054 0.042 0.096 3.13
[ 2] XISreadExp 0.028 0.034 0.062 2.02
[ 3] XISreadEvent 1.169 0.073 1.242 40.48
[ 4] XIStime 0.308 0.051 0.359 11.70
[ 5] XISeditEventFits 1.161 0.132 1.293 42.14
(others) 0.008 0.008 0.016 0.52
--------------------------------------------------------------------------
TOTAL 2.728 0.340 3.068 100.00
-> xistime successful on ae703029010xi3_1_5x5n066.sff.infile,f,a,"ae703029010xi3_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,"ae703029010.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 ae703029010xi3_1_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_1_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 723.52 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 749.04 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 76155 events )
... 10% ( 7615 / 76155 events )
... 20% ( 15230 / 76155 events )
... 30% ( 22845 / 76155 events )
... 40% ( 30460 / 76155 events )
... 50% ( 38075 / 76155 events )
... 60% ( 45690 / 76155 events )
... 70% ( 53305 / 76155 events )
... 80% ( 60920 / 76155 events )
... 90% ( 68535 / 76155 events )
... 100% ( 76155 / 76155 events )
xisEventFitsUtil: rename ./file5k90k4-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 76157
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 76156/76157
[ 2] XISreadExp version 1.6
| OK: 76156/76156
[ 3] XISreadEvent version 2.7
| OK: 76155/76156 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 76155/76155
[ 5] XISeditEventFits version 2.1
| OK: 76155/76155
GET: 76155
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
76156 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
76156 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
76156 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
76155 : XIScoord:ENTRY
76155 : XIScoord:OK
1 : XISeditEventFits:BEGIN
76155 : XISeditEventFits:ENTRY
76155 : 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 9 9 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 76155 152310 SINGLE
XIS:RAWX 4 4 76155 152310 SINGLE
XIS:RAWY 4 4 76155 152310 SINGLE
XIS:ACTX 4 4 152310 76155 SINGLE
XIS:ACTY 4 4 152310 76155 SINGLE
XIS:DETX 4 4 152310 76155 SINGLE
XIS:DETY 4 4 152310 76155 SINGLE
XIS:FOCX 4 4 152310 76155 SINGLE
XIS:FOCY 4 4 152310 76155 SINGLE
XIS:X 4 4 152310 76155 SINGLE
XIS:Y 4 4 152310 76155 SINGLE
XIS:STATUS 4 4 76155 76155 SINGLE
XIS:PHAS 100 100 76155 76155 SINGLE
XIS:PHANOCTI 4 4 76155 76155 SINGLE
XIS:PHA 4 4 76155 76155 SINGLE
XIS:PI 4 4 76155 76155 SINGLE
XIS:GRADE 4 4 76155 76155 SINGLE
XIS:AEDATE 4 4 76155 76155 FAMILY
XIS:EXPTIME 4 4 76155 76155 FAMILY
XIS:EXPTIME_AETIME 8 8 76155 76155 SINGLE
XIS:S_TIME 8 8 76155 76155 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 76155 76155 FAMILY
XIS:EVENT_SEQ_NO 4 4 76155 76155 SINGLE
XIS:TIME 8 8 76155 152310 SINGLE
XIS:EXP_CENT_AETIME 8 8 76155 76155 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 76157 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.076 0.040 0.116 3.50
[ 2] XISreadExp 0.037 0.033 0.070 2.11
[ 3] XISreadEvent 1.223 0.058 1.281 38.62
[ 4] XIScoord 0.530 0.054 0.584 17.61
[ 5] XISeditEventFits 1.132 0.112 1.244 37.50
(others) 0.014 0.008 0.022 0.66
--------------------------------------------------------------------------
TOTAL 3.012 0.305 3.316 100.00
-> xiscoord successful on ae703029010xi3_1_5x5n066.sff.infile,f,a,"ae703029010xi3_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 ae703029010xi3_1_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_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 / 76155 events )
... 10% ( 7615 / 76155 events )
... 20% ( 15230 / 76155 events )
... 30% ( 22845 / 76155 events )
... 40% ( 30460 / 76155 events )
... 50% ( 38075 / 76155 events )
... 60% ( 45690 / 76155 events )
... 70% ( 53305 / 76155 events )
... 80% ( 60920 / 76155 events )
... 90% ( 68535 / 76155 events )
... 100% ( 76155 / 76155 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 1185 1.56
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 3101 4.07
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 749 0.98
B8 256 1PIX_FROM_SEGBOUNDARY 427 0.56
B9 512 SCI_3rd_TRAILING_ROW 947 1.24
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 3467 4.55
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 939 1.23
B16 65536 CALMASK 10930 14.35
B17 131072 SEGBOUNDARY 1496 1.96
B18 262144 SCI_2nd_TRAILING_ROW 952 1.25
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 4634 6.08
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 10840 14.23
B29 536870912 SCI_TRAILING_ROW 11402 14.97
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 17 0.02
### 0 CLEAN_ZERO 36012 47.29
--------------------------------------------------------------
+++ 4294967295 SUM 87098 114.37
::: 524287 SAFE(B0-18) 50951 66.90
>>> 4294967295 TOTAL 76155 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filegEdN9h-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 76157
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 76156/76157
[ 2] XISreadExp version 1.6
| OK: 76156/76156
[ 3] XISreadEvent version 2.7
| OK: 76155/76156 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 76155/76155
[ 5] XISeditEventFits version 2.1
| OK: 76155/76155
GET: 76155
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
76156 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
76156 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
76156 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
76155 : XISputPixelQuality:ENTRY
76155 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
76155 : XISeditEventFits:ENTRY
76155 : 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 9 9 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 76155 76155 SINGLE
XIS:RAWX 4 4 76155 76155 SINGLE
XIS:RAWY 4 4 76155 152310 SINGLE
XIS:ACTX 4 4 76155 152310 SINGLE
XIS:ACTY 4 4 76155 152310 SINGLE
XIS:DETX 4 4 76155 76155 SINGLE
XIS:DETY 4 4 76155 76155 SINGLE
XIS:FOCX 4 4 76155 76155 SINGLE
XIS:FOCY 4 4 76155 76155 SINGLE
XIS:X 4 4 76155 76155 SINGLE
XIS:Y 4 4 76155 76155 SINGLE
XIS:STATUS 4 4 152310 76155 SINGLE
XIS:PHAS 100 100 76155 76155 SINGLE
XIS:PHANOCTI 4 4 76155 76155 SINGLE
XIS:PHA 4 4 76155 76155 SINGLE
XIS:PI 4 4 76155 76155 SINGLE
XIS:GRADE 4 4 76155 76155 SINGLE
XIS:AEDATE 4 4 76155 76155 FAMILY
XIS:EXPTIME 4 4 76155 76155 FAMILY
XIS:EXPTIME_AETIME 8 8 76155 76155 SINGLE
XIS:S_TIME 8 8 76155 76155 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 76155 76155 FAMILY
XIS:EVENT_SEQ_NO 4 4 76155 76155 SINGLE
XIS:TIME 8 8 76155 152310 SINGLE
XIS:EXP_CENT_AETIME 8 8 76155 76155 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 76157 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 0.054 0.043 0.097 3.08
[ 2] XISreadExp 0.022 0.049 0.071 2.25
[ 3] XISreadEvent 1.185 0.142 1.327 42.13
[ 4] XISputPixelQuality 0.145 0.075 0.220 6.98
[ 5] XISeditEventFits 1.136 0.281 1.417 44.98
(others) 0.010 0.008 0.018 0.57
--------------------------------------------------------------------------
TOTAL 2.552 0.598 3.150 100.00
-> xisputpixelquality successful on ae703029010xi3_1_5x5n066.sff.infile,f,a,"ae703029010xi3_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,"ae703029010xi3_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 ae703029010xi3_1_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_1_5x5n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-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 'ae703029010xi3_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 ae703029010xi3_0.hk, S3_VDCHK18_CAL, nrows=5196
nvalid=4945 nrej=251 time=268006987.3 - 268190705.3 [s]
AE-temp: average=15.152 sigma=0.957 min=13.172 max=17.889 [degC]
Event... 1 (0)
... 0% ( 0 / 76155 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 7615 / 76155 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 15230 / 76155 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 22845 / 76155 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 30460 / 76155 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 38075 / 76155 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 45690 / 76155 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 53305 / 76155 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 60920 / 76155 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 68535 / 76155 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 76155 / 76155 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileErkYeM-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 76157
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 76156/76157
[ 2] XISreadExp version 1.6
| OK: 76156/76156
[ 3] XISreadEvent version 2.7
| OK: 76155/76156 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 76155/76155
[ 5] XIStrailCorrection version 3.1
| OK: 76155/76155
[ 6] XISctiCorrection version 3.4
| OK: 76155/76155
[ 7] XISgrade version 3.3
| OK: 76155/76155
[ 8] XISpha2pi version 3.2
| OK: 76155/76155
[ 9] XISeditEventFits version 2.1
| OK: 76155/76155
GET: 76155
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
76156 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
76156 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
76156 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
76155 : XISpreparePHASCORR:ENTRY
76155 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
76155 : XIStrailCorrection:ENTRY
76155 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
76155 : XISctiCorrection:ENTRY
76155 : XISctiCorrection:OK
1 : XISgrade:BEGIN
76155 : XISgrade:ENTRY
76155 : XISgrade:OK
1 : XISpha2pi:BEGIN
76155 : XISpha2pi:ENTRY
76155 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
76155 : XISeditEventFits:ENTRY
76155 : 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 304626 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 9 9 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 76155 380775 SINGLE
XIS:RAWX 4 4 76155 228465 SINGLE
XIS:RAWY 4 4 76155 152310 SINGLE
XIS:ACTX 4 4 76155 76155 SINGLE
XIS:ACTY 4 4 76155 228465 SINGLE
XIS:DETX 4 4 76155 76155 SINGLE
XIS:DETY 4 4 76155 76155 SINGLE
XIS:FOCX 4 4 76155 76155 SINGLE
XIS:FOCY 4 4 76155 76155 SINGLE
XIS:X 4 4 76155 76155 SINGLE
XIS:Y 4 4 76155 76155 SINGLE
XIS:STATUS 4 4 76155 76155 SINGLE
XIS:PHAS 100 100 76155 152310 SINGLE
XIS:PHANOCTI 4 4 152310 76155 SINGLE
XIS:PHA 4 4 152310 76155 SINGLE
XIS:PI 4 4 152310 76155 SINGLE
XIS:GRADE 4 4 152310 76155 SINGLE
XIS:AEDATE 4 4 76155 76155 FAMILY
XIS:EXPTIME 4 4 76155 76155 FAMILY
XIS:EXPTIME_AETIME 8 8 76155 76155 SINGLE
XIS:S_TIME 8 8 76155 76155 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 76155 76155 FAMILY
XIS:EVENT_SEQ_NO 4 4 76155 76155 SINGLE
XIS:TIME 8 8 76155 380775 SINGLE
XIS:EXP_CENT_AETIME 8 8 76155 76155 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 76157 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 152310 76155 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 76155 76155 SINGLE
XIS:PHASCORR 200 200 228465 228465 SINGLE
XIS:PHA:DOUBLE 8 8 76155 76155 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 0.067 0.058 0.125 1.28
[ 2] XISreadExp 0.023 0.040 0.063 0.65
[ 3] XISreadEvent 1.194 0.162 1.356 13.91
[ 4] XISpreparePHASCORR 0.077 0.043 0.120 1.23
[ 5] XIStrailCorrection 0.178 0.053 0.231 2.37
[ 6] XISctiCorrection 4.137 1.679 5.816 59.69
[ 7] XISgrade 0.319 0.063 0.382 3.92
[ 8] XISpha2pi 0.201 0.051 0.252 2.59
[ 9] XISeditEventFits 1.175 0.197 1.372 14.08
(others) 0.018 0.009 0.027 0.28
--------------------------------------------------------------------------
TOTAL 7.389 2.355 9.744 100.00
-> xispi successful on ae703029010xi3_1_5x5n066.sff.infile,f,a,"ae703029010xi3_1_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi3_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 ae703029010xi3_1_5x5n066.sff
OUTFILE ae703029010xi3_1_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi3_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 / 76155 events )
frame time jump, t=268007588.843 - 268009068.842 by 1480.000 s
frame time jump, t=268009212.842 - 268009476.842 by 264.000 s
... 10% ( 7615 / 76155 events )
... 20% ( 15230 / 76155 events )
... 30% ( 22845 / 76155 events )
saturated frame, t=268012964.842 - 268012972.842 291 (836/1127) seg=1111
... 40% ( 30460 / 76155 events )
... 50% ( 38075 / 76155 events )
frame time jump, t=268013652.842 - 268015188.842 by 1536.000 s
frame time jump, t=268015332.842 - 268015596.842 by 264.000 s
... 60% ( 45690 / 76155 events )
frame time jump, t=268017108.841 - 268017564.841 by 456.000 s
... 70% ( 53305 / 76155 events )
... 80% ( 60920 / 76155 events )
frame time jump, t=268019828.841 - 268021260.841 by 1432.000 s
frame time jump, t=268021404.841 - 268021668.841 by 264.000 s
... 90% ( 68535 / 76155 events )
... 100% ( 76155 / 76155 events )
XIScheckEventNo: GTI file 'ae703029010xi3_1_5x5n066.gti' created
N_FRAMES = 1395 / number of frames in the input event file
N_TESTED = 1395 / number of non-zero frames tested
N_PASSED = 1394 / number of frames passed the test
N_T_JUMP = 7 / number of frames detected time jump
N_SATURA = 1 / number of frames telemetry saturated
T_TESTED = 11160.000000 / exposure of non-zero frames tested
T_PASSED = 11152.000000 / exposure of frames passed the test
T_T_JUMP = 5695.999142 / loss of exposure due to time jump
T_SATURA = 8.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1396
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 1395/1396
[ 2] XISreadExp version 1.6
| OK: 1395/1395
[ 3] XISreadEvent version 2.7 <------- LOOP: 76155
| OK: 76155/77550 -------> SKIP: 1395
[ 4] XIScheckEventNo version 1.2
| OK: 76155/76155
GET: 76155
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
1395 : XISreadFrame:ENTRY
1395 : XISreadFrame:OK
1 : XISreadExp:BEGIN
1395 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
77550 : XISreadEvent:ENTRY
77549 : XISreadEvent:OK
1395 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
76155 : XIScheckEventNo:ENTRY
76155 : 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 9 9 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 1395 77550 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 1395 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 1395 77550 SINGLE
XIS:FRAMES:S_TIME 8 8 1395 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 1395 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 1395 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 1395 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 1395 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 1395 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 1395 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 1395 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 1395 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 1395 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 1395 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 1395 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 1395 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 1395 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 1395 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 1395 1395 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 1395 0 SINGLE
XIS:FRAMES:BIAS 16 16 1395 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 1395 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 1395 0 SINGLE
XIS:FRAMES:AEDATE 4 4 1395 77550 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 1395 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 1395 76155 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 1395 1395 SINGLE
XIS:FRAMES:TIME 8 8 1395 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 76155 76155 SINGLE
XIS:RAWX 4 4 76155 0 SINGLE
XIS:RAWY 4 4 76155 0 SINGLE
XIS:ACTX 4 4 76155 0 SINGLE
XIS:ACTY 4 4 76155 0 SINGLE
XIS:DETX 4 4 76155 0 SINGLE
XIS:DETY 4 4 76155 0 SINGLE
XIS:FOCX 4 4 76155 0 SINGLE
XIS:FOCY 4 4 76155 0 SINGLE
XIS:X 4 4 76155 0 SINGLE
XIS:Y 4 4 76155 0 SINGLE
XIS:STATUS 4 4 76155 0 SINGLE
XIS:PHAS 100 100 76155 0 SINGLE
XIS:PHANOCTI 4 4 76155 0 SINGLE
XIS:PHA 4 4 76155 0 SINGLE
XIS:PI 4 4 76155 0 SINGLE
XIS:GRADE 4 4 76155 0 SINGLE
XIS:AEDATE 4 4 76155 77549 FAMILY
XIS:EXPTIME 4 4 76155 77549 FAMILY
XIS:EXPTIME_AETIME 8 8 76155 0 SINGLE
XIS:S_TIME 8 8 76155 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 76155 77549 FAMILY
XIS:EVENT_SEQ_NO 4 4 76155 77549 SINGLE
XIS:TIME 8 8 76155 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 76155 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 0.353 0.035 0.388 15.81
[ 2] XISreadExp 0.003 0.004 0.007 0.29
[ 3] XISreadEvent 1.716 0.238 1.954 79.63
[ 4] XIScheckEventNo 0.045 0.036 0.081 3.30
(others) 0.007 0.017 0.024 0.98
--------------------------------------------------------------------------
TOTAL 2.124 0.330 2.454 100.00
-> xisgtigen successful on ae703029010xi3_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 ae703029010xi3_2_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi3_2_3x3n066.fff.infile,f,a,"ae703029010xi3_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,"ae703029010.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 ae703029010xi3_2_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_2_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 290843 events )
... 10% ( 29084 / 290843 events )
... 20% ( 58168 / 290843 events )
... 30% ( 87252 / 290843 events )
Event... 100001 (100000)
... 40% ( 116336 / 290843 events )
... 50% ( 145420 / 290843 events )
... 60% ( 174504 / 290843 events )
Event... 200001 (200000)
... 70% ( 203588 / 290843 events )
... 80% ( 232672 / 290843 events )
... 90% ( 261756 / 290843 events )
... 100% ( 290843 / 290843 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268103228.829843 / time start
TSTOP = 268177324.819800 / time stop
TELAPASE = 74095.989957 / elapsed time = TSTOP - TSTART
ONTIME = 42167.994646 / on time = sum of all GTIs
LIVETIME = 42167.994646 / on-source time corrected for CCD exposure
EXPOSURE = 42167.994646 / exposure time
xisEventFitsUtil: rename ./filelf5XNS-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 290845
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 290844/290845
[ 2] XISreadExp version 1.6
| OK: 290844/290844
[ 3] XISreadEvent version 2.7
| OK: 290843/290844 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 290843/290843
[ 5] XISeditEventFits version 2.1
| OK: 290843/290843
GET: 290843
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
290844 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
290844 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
290844 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
290843 : XIStime:ENTRY
290843 : XIStime:OK
1 : XISeditEventFits:BEGIN
290843 : XISeditEventFits:ENTRY
290843 : 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 9 9 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 290843 290843 SINGLE
XIS:RAWX 4 4 290843 290843 SINGLE
XIS:RAWY 4 4 290843 290843 SINGLE
XIS:ACTX 4 4 290843 290843 SINGLE
XIS:ACTY 4 4 290843 290843 SINGLE
XIS:DETX 4 4 290843 290843 SINGLE
XIS:DETY 4 4 290843 290843 SINGLE
XIS:FOCX 4 4 290843 290843 SINGLE
XIS:FOCY 4 4 290843 290843 SINGLE
XIS:X 4 4 290843 290843 SINGLE
XIS:Y 4 4 290843 290843 SINGLE
XIS:STATUS 4 4 290843 290843 SINGLE
XIS:PHAS 36 36 290843 290843 SINGLE
XIS:PHANOCTI 4 4 290843 290843 SINGLE
XIS:PHA 4 4 290843 290843 SINGLE
XIS:PI 4 4 290843 290843 SINGLE
XIS:GRADE 4 4 290843 290843 SINGLE
XIS:P_OUTER_MOST 4 4 290843 290843 SINGLE
XIS:SUM_OUTER_MOST 4 4 290843 290843 SINGLE
XIS:AEDATE 4 4 581686 290843 FAMILY
XIS:EXPTIME 4 4 290843 581686 FAMILY
XIS:EXPTIME_AETIME 8 8 581686 290843 SINGLE
XIS:S_TIME 8 8 290843 581686 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 290843 581686 FAMILY
XIS:EVENT_SEQ_NO 4 4 290843 290843 SINGLE
XIS:TIME 8 8 581686 290843 SINGLE
XIS:EXP_CENT_AETIME 8 8 581686 290843 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 290845 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 0.209 0.160 0.369 3.18
[ 2] XISreadExp 0.090 0.154 0.244 2.10
[ 3] XISreadEvent 4.730 0.471 5.201 44.83
[ 4] XIStime 0.737 0.232 0.969 8.35
[ 5] XISeditEventFits 4.328 0.470 4.798 41.36
(others) 0.013 0.008 0.021 0.18
--------------------------------------------------------------------------
TOTAL 10.107 1.495 11.602 100.00
-> xistime successful on ae703029010xi3_2_3x3n066.sff.infile,f,a,"ae703029010xi3_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,"ae703029010.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 ae703029010xi3_2_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_2_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 723.52 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 749.04 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 290843 events )
... 10% ( 29084 / 290843 events )
... 20% ( 58168 / 290843 events )
... 30% ( 87252 / 290843 events )
Event... 100001 (100000)
... 40% ( 116336 / 290843 events )
... 50% ( 145420 / 290843 events )
... 60% ( 174504 / 290843 events )
Event... 200001 (200000)
... 70% ( 203588 / 290843 events )
... 80% ( 232672 / 290843 events )
... 90% ( 261756 / 290843 events )
... 100% ( 290843 / 290843 events )
xisEventFitsUtil: rename ./fileQpQojW-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 290845
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 290844/290845
[ 2] XISreadExp version 1.6
| OK: 290844/290844
[ 3] XISreadEvent version 2.7
| OK: 290843/290844 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 290843/290843
[ 5] XISeditEventFits version 2.1
| OK: 290843/290843
GET: 290843
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
290844 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
290844 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
290844 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
290843 : XIScoord:ENTRY
290843 : XIScoord:OK
1 : XISeditEventFits:BEGIN
290843 : XISeditEventFits:ENTRY
290843 : 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 9 9 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 290843 581686 SINGLE
XIS:RAWX 4 4 290843 581686 SINGLE
XIS:RAWY 4 4 290843 581686 SINGLE
XIS:ACTX 4 4 581686 290843 SINGLE
XIS:ACTY 4 4 581686 290843 SINGLE
XIS:DETX 4 4 581686 290843 SINGLE
XIS:DETY 4 4 581686 290843 SINGLE
XIS:FOCX 4 4 581686 290843 SINGLE
XIS:FOCY 4 4 581686 290843 SINGLE
XIS:X 4 4 581686 290843 SINGLE
XIS:Y 4 4 581686 290843 SINGLE
XIS:STATUS 4 4 290843 290843 SINGLE
XIS:PHAS 36 36 290843 290843 SINGLE
XIS:PHANOCTI 4 4 290843 290843 SINGLE
XIS:PHA 4 4 290843 290843 SINGLE
XIS:PI 4 4 290843 290843 SINGLE
XIS:GRADE 4 4 290843 290843 SINGLE
XIS:P_OUTER_MOST 4 4 290843 290843 SINGLE
XIS:SUM_OUTER_MOST 4 4 290843 290843 SINGLE
XIS:AEDATE 4 4 290843 290843 FAMILY
XIS:EXPTIME 4 4 290843 290843 FAMILY
XIS:EXPTIME_AETIME 8 8 290843 290843 SINGLE
XIS:S_TIME 8 8 290843 290843 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 290843 290843 FAMILY
XIS:EVENT_SEQ_NO 4 4 290843 290843 SINGLE
XIS:TIME 8 8 290843 581686 SINGLE
XIS:EXP_CENT_AETIME 8 8 290843 290843 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 290845 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 0.261 0.183 0.444 3.22
[ 2] XISreadExp 0.094 0.145 0.239 1.73
[ 3] XISreadEvent 4.890 0.528 5.418 39.32
[ 4] XIScoord 2.063 0.319 2.382 17.28
[ 5] XISeditEventFits 4.531 0.739 5.270 38.24
(others) 0.010 0.018 0.028 0.20
--------------------------------------------------------------------------
TOTAL 11.849 1.932 13.781 100.00
-> xiscoord successful on ae703029010xi3_2_3x3n066.sff.infile,f,a,"ae703029010xi3_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 ae703029010xi3_2_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_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 / 290843 events )
... 10% ( 29084 / 290843 events )
... 20% ( 58168 / 290843 events )
... 30% ( 87252 / 290843 events )
Event... 100001 (100000)
... 40% ( 116336 / 290843 events )
... 50% ( 145420 / 290843 events )
... 60% ( 174504 / 290843 events )
Event... 200001 (200000)
... 70% ( 203588 / 290843 events )
... 80% ( 232672 / 290843 events )
... 90% ( 261756 / 290843 events )
... 100% ( 290843 / 290843 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 4624 1.59
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 12100 4.16
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 2996 1.03
B8 256 1PIX_FROM_SEGBOUNDARY 1675 0.58
B9 512 SCI_3rd_TRAILING_ROW 4004 1.38
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 13756 4.73
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 4381 1.51
B16 65536 CALMASK 34735 11.94
B17 131072 SEGBOUNDARY 6090 2.09
B18 262144 SCI_2nd_TRAILING_ROW 3976 1.37
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 9780 3.36
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 34283 11.79
B29 536870912 SCI_TRAILING_ROW 33497 11.52
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 67 0.02
### 0 CLEAN_ZERO 156863 53.93
--------------------------------------------------------------
+++ 4294967295 SUM 322827 111.00
::: 524287 SAFE(B0-18) 215787 74.19
>>> 4294967295 TOTAL 290843 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileELexBl-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 290845
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 290844/290845
[ 2] XISreadExp version 1.6
| OK: 290844/290844
[ 3] XISreadEvent version 2.7
| OK: 290843/290844 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 290843/290843
[ 5] XISeditEventFits version 2.1
| OK: 290843/290843
GET: 290843
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
290844 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
290844 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
290844 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
290843 : XISputPixelQuality:ENTRY
290843 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
290843 : XISeditEventFits:ENTRY
290843 : 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 9 9 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 290843 290843 SINGLE
XIS:RAWX 4 4 290843 290843 SINGLE
XIS:RAWY 4 4 290843 581686 SINGLE
XIS:ACTX 4 4 290843 581686 SINGLE
XIS:ACTY 4 4 290843 581686 SINGLE
XIS:DETX 4 4 290843 290843 SINGLE
XIS:DETY 4 4 290843 290843 SINGLE
XIS:FOCX 4 4 290843 290843 SINGLE
XIS:FOCY 4 4 290843 290843 SINGLE
XIS:X 4 4 290843 290843 SINGLE
XIS:Y 4 4 290843 290843 SINGLE
XIS:STATUS 4 4 581686 290843 SINGLE
XIS:PHAS 36 36 290843 290843 SINGLE
XIS:PHANOCTI 4 4 290843 290843 SINGLE
XIS:PHA 4 4 290843 290843 SINGLE
XIS:PI 4 4 290843 290843 SINGLE
XIS:GRADE 4 4 290843 290843 SINGLE
XIS:P_OUTER_MOST 4 4 290843 290843 SINGLE
XIS:SUM_OUTER_MOST 4 4 290843 290843 SINGLE
XIS:AEDATE 4 4 290843 290843 FAMILY
XIS:EXPTIME 4 4 290843 290843 FAMILY
XIS:EXPTIME_AETIME 8 8 290843 290843 SINGLE
XIS:S_TIME 8 8 290843 290843 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 290843 290843 FAMILY
XIS:EVENT_SEQ_NO 4 4 290843 290843 SINGLE
XIS:TIME 8 8 290843 581686 SINGLE
XIS:EXP_CENT_AETIME 8 8 290843 290843 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 290845 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 0.193 0.150 0.343 3.12
[ 2] XISreadExp 0.079 0.149 0.228 2.07
[ 3] XISreadEvent 4.861 0.225 5.086 46.20
[ 4] XISputPixelQuality 0.446 0.147 0.593 5.39
[ 5] XISeditEventFits 4.182 0.558 4.740 43.06
(others) 0.011 0.008 0.019 0.17
--------------------------------------------------------------------------
TOTAL 9.773 1.237 11.009 100.00
-> xisputpixelquality successful on ae703029010xi3_2_3x3n066.sff.infile,f,a,"ae703029010xi3_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,"ae703029010xi3_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 ae703029010xi3_2_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_2_3x3n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-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 'ae703029010xi3_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 ae703029010xi3_0.hk, S3_VDCHK18_CAL, nrows=5196
nvalid=4945 nrej=251 time=268006987.3 - 268190705.3 [s]
AE-temp: average=15.152 sigma=0.957 min=13.172 max=17.889 [degC]
Event... 1 (0)
... 0% ( 0 / 290843 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 29084 / 290843 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 58168 / 290843 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 87252 / 290843 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 116336 / 290843 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 145420 / 290843 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 174504 / 290843 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 203588 / 290843 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 232672 / 290843 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 261756 / 290843 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 290843 / 290843 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./file1JWiYF-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 290845
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 290844/290845
[ 2] XISreadExp version 1.6
| OK: 290844/290844
[ 3] XISreadEvent version 2.7
| OK: 290843/290844 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 290843/290843
[ 5] XIStrailCorrection version 3.1
| OK: 290843/290843
[ 6] XISctiCorrection version 3.4
| OK: 290843/290843
[ 7] XISgrade version 3.3
| OK: 290843/290843
[ 8] XISpha2pi version 3.2
| OK: 290843/290843
[ 9] XISeditEventFits version 2.1
| OK: 290843/290843
GET: 290843
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
290844 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
290844 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
290844 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
290843 : XISpreparePHASCORR:ENTRY
290843 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
290843 : XIStrailCorrection:ENTRY
290843 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
290843 : XISctiCorrection:ENTRY
290843 : XISctiCorrection:OK
1 : XISgrade:BEGIN
290843 : XISgrade:ENTRY
290843 : XISgrade:OK
1 : XISpha2pi:BEGIN
290843 : XISpha2pi:ENTRY
290843 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
290843 : XISeditEventFits:ENTRY
290843 : 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 1163378 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 9 9 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 290843 1454215 SINGLE
XIS:RAWX 4 4 290843 872529 SINGLE
XIS:RAWY 4 4 290843 581686 SINGLE
XIS:ACTX 4 4 290843 290843 SINGLE
XIS:ACTY 4 4 290843 872529 SINGLE
XIS:DETX 4 4 290843 290843 SINGLE
XIS:DETY 4 4 290843 290843 SINGLE
XIS:FOCX 4 4 290843 290843 SINGLE
XIS:FOCY 4 4 290843 290843 SINGLE
XIS:X 4 4 290843 290843 SINGLE
XIS:Y 4 4 290843 290843 SINGLE
XIS:STATUS 4 4 290843 290843 SINGLE
XIS:PHAS 36 36 290843 581686 SINGLE
XIS:PHANOCTI 4 4 581686 290843 SINGLE
XIS:PHA 4 4 581686 290843 SINGLE
XIS:PI 4 4 581686 290843 SINGLE
XIS:GRADE 4 4 581686 290843 SINGLE
XIS:P_OUTER_MOST 4 4 290843 581686 SINGLE
XIS:SUM_OUTER_MOST 4 4 290843 581686 SINGLE
XIS:AEDATE 4 4 290843 290843 FAMILY
XIS:EXPTIME 4 4 290843 290843 FAMILY
XIS:EXPTIME_AETIME 8 8 290843 290843 SINGLE
XIS:S_TIME 8 8 290843 290843 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 290843 290843 FAMILY
XIS:EVENT_SEQ_NO 4 4 290843 290843 SINGLE
XIS:TIME 8 8 290843 1454215 SINGLE
XIS:EXP_CENT_AETIME 8 8 290843 290843 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 290845 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 581686 290843 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 290843 290843 SINGLE
XIS:PHASCORR 72 72 872529 872529 SINGLE
XIS:PHA:DOUBLE 8 8 290843 290843 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 0.286 0.164 0.450 1.41
[ 2] XISreadExp 0.110 0.148 0.258 0.81
[ 3] XISreadEvent 5.024 0.524 5.548 17.36
[ 4] XISpreparePHASCORR 0.234 0.170 0.404 1.26
[ 5] XIStrailCorrection 0.632 0.204 0.836 2.62
[ 6] XISctiCorrection 11.443 5.821 17.264 54.01
[ 7] XISgrade 0.982 0.194 1.176 3.68
[ 8] XISpha2pi 0.607 0.193 0.800 2.50
[ 9] XISeditEventFits 4.589 0.609 5.198 16.26
(others) 0.020 0.009 0.029 0.09
--------------------------------------------------------------------------
TOTAL 23.927 8.036 31.963 100.00
-> xispi successful on ae703029010xi3_2_3x3n066.sff.infile,f,a,"ae703029010xi3_2_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi3_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 ae703029010xi3_2_3x3n066.sff
OUTFILE ae703029010xi3_2_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi3_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 / 290843 events )
saturated frame, t=268103228.830 - 268103236.830 -16 (53/37) seg=1111
frame time jump, t=268104724.830 - 268107532.829 by 2808.000 s
frame time jump, t=268107676.829 - 268107940.829 by 264.000 s
frame time jump, t=268110484.829 - 268113516.828 by 3032.000 s
frame time jump, t=268113660.828 - 268113924.828 by 264.000 s
... 10% ( 29084 / 290843 events )
frame time jump, t=268116228.828 - 268119492.828 by 3264.000 s
frame time jump, t=268119628.828 - 268119892.828 by 264.000 s
saturated frame, t=268121964.827 - 268121972.827 1751 (506/2257) seg=1111
frame time jump, t=268121972.827 - 268121980.827 by 8.000 s
saturated frame, t=268121980.827 - 268121988.827 2484 (147/2631) seg=1111
frame time jump, t=268121988.827 - 268124068.827 by 2080.000 s
saturated frame, t=268124500.827 - 268124508.827 154 (154/308) seg=1111
frame time jump, t=268124508.827 - 268125308.827 by 800.000 s
... 20% ( 58168 / 290843 events )
frame time jump, t=268125452.827 - 268125716.827 by 264.000 s
saturated frame, t=268127716.827 - 268127724.827 2521 (505/3026) seg=1111
frame time jump, t=268127724.827 - 268129828.826 by 2104.000 s
... 30% ( 87252 / 290843 events )
frame time jump, t=268133476.826 - 268135572.825 by 2096.000 s
... 40% ( 116336 / 290843 events )
frame time jump, t=268139236.825 - 268141324.825 by 2088.000 s
saturated frame, t=268144988.824 - 268144996.824 147 (328/475) seg=1111
frame time jump, t=268144996.824 - 268147020.824 by 2024.000 s
... 50% ( 145420 / 290843 events )
frame time jump, t=268150740.823 - 268152836.823 by 2096.000 s
... 60% ( 174504 / 290843 events )
frame time jump, t=268156484.823 - 268158580.822 by 2096.000 s
... 70% ( 203588 / 290843 events )
frame time jump, t=268162244.822 - 268164300.822 by 2056.000 s
... 80% ( 232672 / 290843 events )
frame time jump, t=268168004.821 - 268170092.821 by 2088.000 s
... 90% ( 261756 / 290843 events )
frame time jump, t=268173748.820 - 268175980.820 by 2232.000 s
... 100% ( 290843 / 290843 events )
XIScheckEventNo: GTI file 'ae703029010xi3_2_3x3n066.gti' created
N_FRAMES = 5271 / number of frames in the input event file
N_TESTED = 5271 / number of non-zero frames tested
N_PASSED = 5265 / number of frames passed the test
N_T_JUMP = 19 / number of frames detected time jump
N_SATURA = 6 / number of frames telemetry saturated
T_TESTED = 42168.000000 / exposure of non-zero frames tested
T_PASSED = 42120.000000 / exposure of frames passed the test
T_T_JUMP = 31927.995312 / loss of exposure due to time jump
T_SATURA = 48.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 5272
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 5271/5272
[ 2] XISreadExp version 1.6
| OK: 5271/5271
[ 3] XISreadEvent version 2.7 <------- LOOP: 290843
| OK: 290843/296114 -------> SKIP: 5271
[ 4] XIScheckEventNo version 1.2
| OK: 290843/290843
GET: 290843
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
5271 : XISreadFrame:ENTRY
5271 : XISreadFrame:OK
1 : XISreadExp:BEGIN
5271 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
296114 : XISreadEvent:ENTRY
296113 : XISreadEvent:OK
5271 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
290843 : XIScheckEventNo:ENTRY
290843 : 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 9 9 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 5271 296114 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 5271 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 5271 296114 SINGLE
XIS:FRAMES:S_TIME 8 8 5271 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 5271 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 5271 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 5271 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 5271 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 5271 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 5271 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 5271 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 5271 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 5271 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 5271 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 5271 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 5271 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 5271 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 5271 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 5271 5271 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 5271 0 SINGLE
XIS:FRAMES:BIAS 16 16 5271 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 5271 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 5271 0 SINGLE
XIS:FRAMES:AEDATE 4 4 5271 296114 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 5271 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 5271 290843 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 5271 5271 SINGLE
XIS:FRAMES:TIME 8 8 5271 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 290843 290843 SINGLE
XIS:RAWX 4 4 290843 0 SINGLE
XIS:RAWY 4 4 290843 0 SINGLE
XIS:ACTX 4 4 290843 0 SINGLE
XIS:ACTY 4 4 290843 0 SINGLE
XIS:DETX 4 4 290843 0 SINGLE
XIS:DETY 4 4 290843 0 SINGLE
XIS:FOCX 4 4 290843 0 SINGLE
XIS:FOCY 4 4 290843 0 SINGLE
XIS:X 4 4 290843 0 SINGLE
XIS:Y 4 4 290843 0 SINGLE
XIS:STATUS 4 4 290843 0 SINGLE
XIS:PHAS 36 36 290843 0 SINGLE
XIS:PHANOCTI 4 4 290843 0 SINGLE
XIS:PHA 4 4 290843 0 SINGLE
XIS:PI 4 4 290843 0 SINGLE
XIS:GRADE 4 4 290843 0 SINGLE
XIS:P_OUTER_MOST 4 4 290843 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 290843 0 SINGLE
XIS:AEDATE 4 4 290843 296113 FAMILY
XIS:EXPTIME 4 4 290843 296113 FAMILY
XIS:EXPTIME_AETIME 8 8 290843 0 SINGLE
XIS:S_TIME 8 8 290843 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 290843 296113 FAMILY
XIS:EVENT_SEQ_NO 4 4 290843 296113 SINGLE
XIS:TIME 8 8 290843 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 290843 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 1.211 0.035 1.246 14.83
[ 2] XISreadExp 0.005 0.002 0.007 0.08
[ 3] XISreadEvent 6.572 0.295 6.867 81.72
[ 4] XIScheckEventNo 0.125 0.137 0.262 3.12
(others) 0.011 0.010 0.021 0.25
--------------------------------------------------------------------------
TOTAL 7.924 0.479 8.403 100.00
-> xisgtigen successful on ae703029010xi3_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 ae703029010xi3_2_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi3_2_5x5n066.fff.infile,f,a,"ae703029010xi3_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,"ae703029010.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 ae703029010xi3_2_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_2_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae703029010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae703029010.tim[TIME_PACKETS_SEL]' ...
ntpk=25
aste_ti2time: reading 'ae703029010.tim[DP_TIMC]' ...
ndpk=75459, t=267836497.478 - 268364701.409
aste_ti2time: reading 'ae703029010.tim[DP_DHU_AVG]' ...
1: t0=267838613,N0=1024196608,Y=19877788/19681748,f=16777218.764,j=1,d=0
2: t0=267844725,N0=1049231360,Y=19681748/19484274,f=16777218.433,j=0,d=0
3: t0=267850837,N0=1074266112,Y=19484274/19286125,f=16777218.599,j=0,d=0
4: t0=267856917,N0=1099169792,Y=19286125/19089656,f=16777218.486,j=0,d=0
5: t0=267862997,N0=1124073472,Y=19089656/17410328,f=16777218.500,j=0,d=0
6: t0=267924917,N0=1377697792,Y=17410328/17224940,f=16777218.578,j=0,d=0
7: t0=267931029,N0=1402732544,Y=17224940/17035024,f=16777218.381,j=0,d=0
8: t0=267937141,N0=1427767296,Y=17035024/16848607,f=16777218.311,j=0,d=0
9: t0=267943221,N0=1452670976,Y=16848607/16669710,f=16777218.621,j=0,d=0
10: t0=267949301,N0=1477574656,Y=16669710/15273851,f=16777218.433,j=0,d=0
11: t0=268005141,N0=1706295296,Y=15273851/15088014,f=16777218.647,j=0,d=0
12: t0=268011221,N0=1731198976,Y=15088014/14899585,f=16777218.538,j=0,d=0
13: t0=268017205,N0=1755709440,Y=14899585/14692758,f=16777218.242,j=0,d=0
14: t0=268023413,N0=1781137408,Y=14692758/10008941,f=16777218.577,j=0,d=0
15: t0=268177717,N0=2413166592,Y=10008941/9804432,f=16777218.749,j=0,d=0
16: t0=268183829,N0=2438201344,Y=9804432/9606895,f=16777218.784,j=0,d=0
17: t0=268189941,N0=2463236096,Y=9606895/9422101,f=16777218.537,j=0,d=0
18: t0=268196021,N0=2488139776,Y=9422101/9234567,f=16777218.871,j=0,d=0
19: t0=268202101,N0=2513043456,Y=9234567/7457319,f=16777218.524,j=0,d=0
20: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=0,d=0
21: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
22: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
23: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
24: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
25: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 83022 events )
... 10% ( 8302 / 83022 events )
... 20% ( 16604 / 83022 events )
... 30% ( 24906 / 83022 events )
... 40% ( 33208 / 83022 events )
... 50% ( 41510 / 83022 events )
... 60% ( 49812 / 83022 events )
... 70% ( 58114 / 83022 events )
... 80% ( 66416 / 83022 events )
... 90% ( 74718 / 83022 events )
... 100% ( 83022 / 83022 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268177324.819799 / time start
TSTOP = 268190692.817888 / time stop
TELAPASE = 13367.998089 / elapsed time = TSTOP - TSTART
ONTIME = 9751.998701 / on time = sum of all GTIs
LIVETIME = 9751.998701 / on-source time corrected for CCD exposure
EXPOSURE = 9751.998701 / exposure time
xisEventFitsUtil: rename ./filekTsax1-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 83024
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 83023/83024
[ 2] XISreadExp version 1.6
| OK: 83023/83023
[ 3] XISreadEvent version 2.7
| OK: 83022/83023 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 83022/83022
[ 5] XISeditEventFits version 2.1
| OK: 83022/83022
GET: 83022
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
83023 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
83023 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
83023 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
83022 : XIStime:ENTRY
83022 : XIStime:OK
1 : XISeditEventFits:BEGIN
83022 : XISeditEventFits:ENTRY
83022 : 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 9 9 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 83022 83022 SINGLE
XIS:RAWX 4 4 83022 83022 SINGLE
XIS:RAWY 4 4 83022 83022 SINGLE
XIS:ACTX 4 4 83022 83022 SINGLE
XIS:ACTY 4 4 83022 83022 SINGLE
XIS:DETX 4 4 83022 83022 SINGLE
XIS:DETY 4 4 83022 83022 SINGLE
XIS:FOCX 4 4 83022 83022 SINGLE
XIS:FOCY 4 4 83022 83022 SINGLE
XIS:X 4 4 83022 83022 SINGLE
XIS:Y 4 4 83022 83022 SINGLE
XIS:STATUS 4 4 83022 83022 SINGLE
XIS:PHAS 100 100 83022 83022 SINGLE
XIS:PHANOCTI 4 4 83022 83022 SINGLE
XIS:PHA 4 4 83022 83022 SINGLE
XIS:PI 4 4 83022 83022 SINGLE
XIS:GRADE 4 4 83022 83022 SINGLE
XIS:AEDATE 4 4 166044 83022 FAMILY
XIS:EXPTIME 4 4 83022 166044 FAMILY
XIS:EXPTIME_AETIME 8 8 166044 83022 SINGLE
XIS:S_TIME 8 8 83022 166044 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 83022 166044 FAMILY
XIS:EVENT_SEQ_NO 4 4 83022 83022 SINGLE
XIS:TIME 8 8 166044 83022 SINGLE
XIS:EXP_CENT_AETIME 8 8 166044 83022 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 83024 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 0.062 0.034 0.096 2.92
[ 2] XISreadExp 0.021 0.040 0.061 1.86
[ 3] XISreadEvent 1.280 0.093 1.373 41.76
[ 4] XIStime 0.327 0.056 0.383 11.65
[ 5] XISeditEventFits 1.244 0.112 1.356 41.24
(others) 0.010 0.009 0.019 0.58
--------------------------------------------------------------------------
TOTAL 2.944 0.344 3.287 100.00
-> xistime successful on ae703029010xi3_2_5x5n066.sff.infile,f,a,"ae703029010xi3_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,"ae703029010.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 ae703029010xi3_2_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_2_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 = 12.19110 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 723.52 / 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 = 31.96360 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 749.04 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 83022 events )
... 10% ( 8302 / 83022 events )
... 20% ( 16604 / 83022 events )
... 30% ( 24906 / 83022 events )
... 40% ( 33208 / 83022 events )
... 50% ( 41510 / 83022 events )
... 60% ( 49812 / 83022 events )
... 70% ( 58114 / 83022 events )
... 80% ( 66416 / 83022 events )
... 90% ( 74718 / 83022 events )
... 100% ( 83022 / 83022 events )
xisEventFitsUtil: rename ./filexbcWqN-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 83024
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 83023/83024
[ 2] XISreadExp version 1.6
| OK: 83023/83023
[ 3] XISreadEvent version 2.7
| OK: 83022/83023 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 83022/83022
[ 5] XISeditEventFits version 2.1
| OK: 83022/83022
GET: 83022
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
83023 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
83023 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
83023 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
83022 : XIScoord:ENTRY
83022 : XIScoord:OK
1 : XISeditEventFits:BEGIN
83022 : XISeditEventFits:ENTRY
83022 : 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 9 9 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 83022 166044 SINGLE
XIS:RAWX 4 4 83022 166044 SINGLE
XIS:RAWY 4 4 83022 166044 SINGLE
XIS:ACTX 4 4 166044 83022 SINGLE
XIS:ACTY 4 4 166044 83022 SINGLE
XIS:DETX 4 4 166044 83022 SINGLE
XIS:DETY 4 4 166044 83022 SINGLE
XIS:FOCX 4 4 166044 83022 SINGLE
XIS:FOCY 4 4 166044 83022 SINGLE
XIS:X 4 4 166044 83022 SINGLE
XIS:Y 4 4 166044 83022 SINGLE
XIS:STATUS 4 4 83022 83022 SINGLE
XIS:PHAS 100 100 83022 83022 SINGLE
XIS:PHANOCTI 4 4 83022 83022 SINGLE
XIS:PHA 4 4 83022 83022 SINGLE
XIS:PI 4 4 83022 83022 SINGLE
XIS:GRADE 4 4 83022 83022 SINGLE
XIS:AEDATE 4 4 83022 83022 FAMILY
XIS:EXPTIME 4 4 83022 83022 FAMILY
XIS:EXPTIME_AETIME 8 8 83022 83022 SINGLE
XIS:S_TIME 8 8 83022 83022 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 83022 83022 FAMILY
XIS:EVENT_SEQ_NO 4 4 83022 83022 SINGLE
XIS:TIME 8 8 83022 166044 SINGLE
XIS:EXP_CENT_AETIME 8 8 83022 83022 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 83024 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 0.066 0.041 0.107 2.95
[ 2] XISreadExp 0.013 0.039 0.052 1.43
[ 3] XISreadEvent 1.333 0.070 1.403 38.64
[ 4] XIScoord 0.632 0.065 0.697 19.20
[ 5] XISeditEventFits 1.208 0.142 1.350 37.18
(others) 0.017 0.005 0.022 0.61
--------------------------------------------------------------------------
TOTAL 3.269 0.362 3.630 100.00
-> xiscoord successful on ae703029010xi3_2_5x5n066.sff.infile,f,a,"ae703029010xi3_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 ae703029010xi3_2_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_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 / 83022 events )
... 10% ( 8302 / 83022 events )
... 20% ( 16604 / 83022 events )
... 30% ( 24906 / 83022 events )
... 40% ( 33208 / 83022 events )
... 50% ( 41510 / 83022 events )
... 60% ( 49812 / 83022 events )
... 70% ( 58114 / 83022 events )
... 80% ( 66416 / 83022 events )
... 90% ( 74718 / 83022 events )
... 100% ( 83022 / 83022 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 1199 1.44
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 3617 4.36
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 722 0.87
B8 256 1PIX_FROM_SEGBOUNDARY 474 0.57
B9 512 SCI_3rd_TRAILING_ROW 886 1.07
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 4013 4.83
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 866 1.04
B16 65536 CALMASK 8924 10.75
B17 131072 SEGBOUNDARY 1554 1.87
B18 262144 SCI_2nd_TRAILING_ROW 838 1.01
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 4249 5.12
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 17287 20.82
B29 536870912 SCI_TRAILING_ROW 17594 21.19
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 29 0.03
### 0 CLEAN_ZERO 32901 39.63
--------------------------------------------------------------
+++ 4294967295 SUM 95153 114.61
::: 524287 SAFE(B0-18) 45846 55.22
>>> 4294967295 TOTAL 83022 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./file9sxB5R-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 83024
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 83023/83024
[ 2] XISreadExp version 1.6
| OK: 83023/83023
[ 3] XISreadEvent version 2.7
| OK: 83022/83023 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 83022/83022
[ 5] XISeditEventFits version 2.1
| OK: 83022/83022
GET: 83022
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
83023 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
83023 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
83023 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
83022 : XISputPixelQuality:ENTRY
83022 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
83022 : XISeditEventFits:ENTRY
83022 : 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 9 9 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 83022 83022 SINGLE
XIS:RAWX 4 4 83022 83022 SINGLE
XIS:RAWY 4 4 83022 166044 SINGLE
XIS:ACTX 4 4 83022 166044 SINGLE
XIS:ACTY 4 4 83022 166044 SINGLE
XIS:DETX 4 4 83022 83022 SINGLE
XIS:DETY 4 4 83022 83022 SINGLE
XIS:FOCX 4 4 83022 83022 SINGLE
XIS:FOCY 4 4 83022 83022 SINGLE
XIS:X 4 4 83022 83022 SINGLE
XIS:Y 4 4 83022 83022 SINGLE
XIS:STATUS 4 4 166044 83022 SINGLE
XIS:PHAS 100 100 83022 83022 SINGLE
XIS:PHANOCTI 4 4 83022 83022 SINGLE
XIS:PHA 4 4 83022 83022 SINGLE
XIS:PI 4 4 83022 83022 SINGLE
XIS:GRADE 4 4 83022 83022 SINGLE
XIS:AEDATE 4 4 83022 83022 FAMILY
XIS:EXPTIME 4 4 83022 83022 FAMILY
XIS:EXPTIME_AETIME 8 8 83022 83022 SINGLE
XIS:S_TIME 8 8 83022 83022 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 83022 83022 FAMILY
XIS:EVENT_SEQ_NO 4 4 83022 83022 SINGLE
XIS:TIME 8 8 83022 166044 SINGLE
XIS:EXP_CENT_AETIME 8 8 83022 83022 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 83024 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 0.046 0.106 3.46
[ 2] XISreadExp 0.025 0.040 0.065 2.12
[ 3] XISreadEvent 1.268 0.049 1.317 42.93
[ 4] XISputPixelQuality 0.149 0.051 0.200 6.52
[ 5] XISeditEventFits 1.205 0.158 1.363 44.43
(others) 0.007 0.010 0.017 0.55
--------------------------------------------------------------------------
TOTAL 2.714 0.354 3.068 100.00
-> xisputpixelquality successful on ae703029010xi3_2_5x5n066.sff.infile,f,a,"ae703029010xi3_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,"ae703029010xi3_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 ae703029010xi3_2_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_2_5x5n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 98-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 'ae703029010xi3_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 ae703029010xi3_0.hk, S3_VDCHK18_CAL, nrows=5196
nvalid=4945 nrej=251 time=268006987.3 - 268190705.3 [s]
AE-temp: average=15.152 sigma=0.957 min=13.172 max=17.889 [degC]
Event... 1 (0)
... 0% ( 0 / 83022 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 8302 / 83022 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 16604 / 83022 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 24906 / 83022 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 33208 / 83022 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 41510 / 83022 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 49812 / 83022 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 58114 / 83022 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 66416 / 83022 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 74718 / 83022 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 83022 / 83022 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filesAJZjx-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 83024
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 83023/83024
[ 2] XISreadExp version 1.6
| OK: 83023/83023
[ 3] XISreadEvent version 2.7
| OK: 83022/83023 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 83022/83022
[ 5] XIStrailCorrection version 3.1
| OK: 83022/83022
[ 6] XISctiCorrection version 3.4
| OK: 83022/83022
[ 7] XISgrade version 3.3
| OK: 83022/83022
[ 8] XISpha2pi version 3.2
| OK: 83022/83022
[ 9] XISeditEventFits version 2.1
| OK: 83022/83022
GET: 83022
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
83023 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
83023 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
83023 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
83022 : XISpreparePHASCORR:ENTRY
83022 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
83022 : XIStrailCorrection:ENTRY
83022 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
83022 : XISctiCorrection:ENTRY
83022 : XISctiCorrection:OK
1 : XISgrade:BEGIN
83022 : XISgrade:ENTRY
83022 : XISgrade:OK
1 : XISpha2pi:BEGIN
83022 : XISpha2pi:ENTRY
83022 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
83022 : XISeditEventFits:ENTRY
83022 : 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 332094 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 9 9 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 83022 415110 SINGLE
XIS:RAWX 4 4 83022 249066 SINGLE
XIS:RAWY 4 4 83022 166044 SINGLE
XIS:ACTX 4 4 83022 83022 SINGLE
XIS:ACTY 4 4 83022 249066 SINGLE
XIS:DETX 4 4 83022 83022 SINGLE
XIS:DETY 4 4 83022 83022 SINGLE
XIS:FOCX 4 4 83022 83022 SINGLE
XIS:FOCY 4 4 83022 83022 SINGLE
XIS:X 4 4 83022 83022 SINGLE
XIS:Y 4 4 83022 83022 SINGLE
XIS:STATUS 4 4 83022 83022 SINGLE
XIS:PHAS 100 100 83022 166044 SINGLE
XIS:PHANOCTI 4 4 166044 83022 SINGLE
XIS:PHA 4 4 166044 83022 SINGLE
XIS:PI 4 4 166044 83022 SINGLE
XIS:GRADE 4 4 166044 83022 SINGLE
XIS:AEDATE 4 4 83022 83022 FAMILY
XIS:EXPTIME 4 4 83022 83022 FAMILY
XIS:EXPTIME_AETIME 8 8 83022 83022 SINGLE
XIS:S_TIME 8 8 83022 83022 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 83022 83022 FAMILY
XIS:EVENT_SEQ_NO 4 4 83022 83022 SINGLE
XIS:TIME 8 8 83022 415110 SINGLE
XIS:EXP_CENT_AETIME 8 8 83022 83022 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 83024 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 166044 83022 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 83022 83022 SINGLE
XIS:PHASCORR 200 200 249066 249066 SINGLE
XIS:PHA:DOUBLE 8 8 83022 83022 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 0.065 0.045 0.110 1.23
[ 2] XISreadExp 0.025 0.036 0.061 0.68
[ 3] XISreadEvent 1.314 0.073 1.387 15.56
[ 4] XISpreparePHASCORR 0.072 0.042 0.114 1.28
[ 5] XIStrailCorrection 0.186 0.053 0.239 2.68
[ 6] XISctiCorrection 3.885 1.086 4.971 55.78
[ 7] XISgrade 0.291 0.050 0.341 3.83
[ 8] XISpha2pi 0.220 0.038 0.258 2.89
[ 9] XISeditEventFits 1.284 0.123 1.407 15.78
(others) 0.017 0.008 0.025 0.28
--------------------------------------------------------------------------
TOTAL 7.359 1.554 8.913 100.00
-> xispi successful on ae703029010xi3_2_5x5n066.sff.infile,f,a,"ae703029010xi3_2_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae703029010xi3_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 ae703029010xi3_2_5x5n066.sff
OUTFILE ae703029010xi3_2_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae703029010xi3_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 / 83022 events )
... 10% ( 8302 / 83022 events )
saturated frame, t=268179540.820 - 268179548.820 2193 (812/3005) seg=1111
... 20% ( 16604 / 83022 events )
saturated frame, t=268179548.820 - 268179556.820 367 (825/1192) seg=1111
saturated frame, t=268179556.820 - 268179564.820 1202 (816/2018) seg=1111
saturated frame, t=268179564.820 - 268179572.820 1014 (815/1829) seg=1111
saturated frame, t=268179572.820 - 268179580.820 316 (819/1135) seg=1111
saturated frame, t=268179580.820 - 268179588.820 2236 (811/3047) seg=1111
saturated frame, t=268179588.820 - 268179596.820 2188 (809/2997) seg=1111
saturated frame, t=268179596.820 - 268179604.820 2013 (815/2828) seg=1111
saturated frame, t=268179604.820 - 268179612.820 1458 (815/2273) seg=1111
saturated frame, t=268179612.820 - 268179620.820 1541 (815/2356) seg=1111
saturated frame, t=268179628.820 - 268179636.820 1935 (817/2752) seg=1111
... 30% ( 24906 / 83022 events )
saturated frame, t=268179636.820 - 268179644.820 1332 (818/2150) seg=1111
saturated frame, t=268179644.820 - 268179652.820 1053 (817/1870) seg=1111
saturated frame, t=268179660.820 - 268179668.820 1029 (818/1847) seg=1111
saturated frame, t=268179668.820 - 268179676.820 147 (829/976) seg=1111
saturated frame, t=268179676.820 - 268179684.820 1146 (816/1962) seg=1111
saturated frame, t=268179724.819 - 268179732.819 966 (836/1802) seg=1111
saturated frame, t=268179732.819 - 268179740.819 1903 (819/2722) seg=1111
saturated frame, t=268179740.819 - 268179748.819 1764 (813/2577) seg=1111
... 40% ( 33208 / 83022 events )
frame time jump, t=268180108.819 - 268181676.819 by 1568.000 s
frame time jump, t=268181820.819 - 268182084.819 by 264.000 s
... 50% ( 41510 / 83022 events )
... 60% ( 49812 / 83022 events )
... 70% ( 58114 / 83022 events )
... 80% ( 66416 / 83022 events )
frame time jump, t=268186308.819 - 268187828.818 by 1520.000 s
frame time jump, t=268187972.818 - 268188236.818 by 264.000 s
... 90% ( 74718 / 83022 events )
... 100% ( 83022 / 83022 events )
XIScheckEventNo: GTI file 'ae703029010xi3_2_5x5n066.gti' created
N_FRAMES = 1219 / number of frames in the input event file
N_TESTED = 1219 / number of non-zero frames tested
N_PASSED = 1200 / number of frames passed the test
N_T_JUMP = 4 / number of frames detected time jump
N_SATURA = 19 / number of frames telemetry saturated
T_TESTED = 9752.000000 / exposure of non-zero frames tested
T_PASSED = 9600.000000 / exposure of frames passed the test
T_T_JUMP = 3615.999388 / 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: 1220
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 1219/1220
[ 2] XISreadExp version 1.6
| OK: 1219/1219
[ 3] XISreadEvent version 2.7 <------- LOOP: 83022
| OK: 83022/84241 -------> SKIP: 1219
[ 4] XIScheckEventNo version 1.2
| OK: 83022/83022
GET: 83022
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
1219 : XISreadFrame:ENTRY
1219 : XISreadFrame:OK
1 : XISreadExp:BEGIN
1219 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
84241 : XISreadEvent:ENTRY
84240 : XISreadEvent:OK
1219 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
83022 : XIScheckEventNo:ENTRY
83022 : 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 9 9 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 1219 84241 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 1219 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 1219 84241 SINGLE
XIS:FRAMES:S_TIME 8 8 1219 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 1219 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 1219 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 1219 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 1219 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 1219 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 1219 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 1219 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 1219 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 1219 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 1219 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 1219 1219 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 1219 0 SINGLE
XIS:FRAMES:BIAS 16 16 1219 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 1219 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 1219 0 SINGLE
XIS:FRAMES:AEDATE 4 4 1219 84241 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 1219 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 1219 83022 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 1219 1219 SINGLE
XIS:FRAMES:TIME 8 8 1219 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 83022 83022 SINGLE
XIS:RAWX 4 4 83022 0 SINGLE
XIS:RAWY 4 4 83022 0 SINGLE
XIS:ACTX 4 4 83022 0 SINGLE
XIS:ACTY 4 4 83022 0 SINGLE
XIS:DETX 4 4 83022 0 SINGLE
XIS:DETY 4 4 83022 0 SINGLE
XIS:FOCX 4 4 83022 0 SINGLE
XIS:FOCY 4 4 83022 0 SINGLE
XIS:X 4 4 83022 0 SINGLE
XIS:Y 4 4 83022 0 SINGLE
XIS:STATUS 4 4 83022 0 SINGLE
XIS:PHAS 100 100 83022 0 SINGLE
XIS:PHANOCTI 4 4 83022 0 SINGLE
XIS:PHA 4 4 83022 0 SINGLE
XIS:PI 4 4 83022 0 SINGLE
XIS:GRADE 4 4 83022 0 SINGLE
XIS:AEDATE 4 4 83022 84240 FAMILY
XIS:EXPTIME 4 4 83022 84240 FAMILY
XIS:EXPTIME_AETIME 8 8 83022 0 SINGLE
XIS:S_TIME 8 8 83022 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 83022 84240 FAMILY
XIS:EVENT_SEQ_NO 4 4 83022 84240 SINGLE
XIS:TIME 8 8 83022 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 83022 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 0.301 0.010 0.311 13.79
[ 2] XISreadExp 0.003 0.001 0.004 0.18
[ 3] XISreadEvent 1.697 0.124 1.821 80.75
[ 4] XIScheckEventNo 0.060 0.041 0.101 4.48
(others) 0.013 0.005 0.018 0.80
--------------------------------------------------------------------------
TOTAL 2.074 0.181 2.255 100.00
-> xisgtigen successful on ae703029010xi3_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 ae703029010xi0_1_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi0_1_dun066.fff.infile,f,a,"ae703029010xi0_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,"ae703029010.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 ae703029010xi0_1_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_1_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 5
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN8 = 1 / minimum legal value for DETX
TLMAX8 = 1024 / maximum legal value for DETX
TCRPX8 = 512.5 / DETX reference pixel
TCRVL8 = 0.0 / DETX reference pixel value (mm)
TCDLT8 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC8 = 584.80 / DETX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for DETY
TLMAX9 = 1024 / maximum legal value for DETY
TCRPX9 = 512.5 / DETY reference pixel
TCRVL9 = 0.0 / DETY reference pixel value (mm)
TCDLT9 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC9 = 497.50 / DETY of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 11060 events )
... 10% ( 1106 / 11060 events )
... 20% ( 2212 / 11060 events )
... 30% ( 3318 / 11060 events )
... 40% ( 4424 / 11060 events )
... 50% ( 5530 / 11060 events )
... 60% ( 6636 / 11060 events )
... 70% ( 7742 / 11060 events )
... 80% ( 8848 / 11060 events )
... 90% ( 9954 / 11060 events )
... 100% ( 11060 / 11060 events )
xisEventFitsUtil: rename ./fileon9QLo-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 11062
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 11061/11062
[ 2] XISreadExp version 1.6
| OK: 11061/11061
[ 3] XISreadEvent version 2.7
| OK: 11060/11061 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 11060/11060
[ 5] XISeditEventFits version 2.1
| OK: 11060/11060
GET: 11060
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
11061 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
11061 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
11061 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
11060 : XIScoord:ENTRY
11060 : XIScoord:OK
1 : XISeditEventFits:BEGIN
11060 : XISeditEventFits:ENTRY
11060 : 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 9 9 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 11060 22120 SINGLE
XIS:PPUX 4 4 11060 22120 SINGLE
XIS:PPUY 4 4 11060 22120 SINGLE
XIS:RAWX 4 4 22120 11060 SINGLE
XIS:RAWY 4 4 22120 11060 SINGLE
XIS:ACTX 4 4 22120 11060 SINGLE
XIS:ACTY 4 4 22120 11060 SINGLE
XIS:DETX 4 4 22120 11060 SINGLE
XIS:DETY 4 4 22120 11060 SINGLE
XIS:PHAS 4 4 11060 11060 SINGLE
XIS:AEDATE 4 4 11060 11060 FAMILY
XIS:EXPTIME 4 4 11060 11060 FAMILY
XIS:EXPTIME_AETIME 8 8 11060 11060 SINGLE
XIS:S_TIME 8 8 11060 11060 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 11060 11060 FAMILY
XIS:EVENT_SEQ_NO 4 4 11060 11060 SINGLE
XIS:TIME 8 8 11060 22120 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 11062 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 0.015 0.007 0.022 5.88
[ 2] XISreadExp 0.002 0.006 0.008 2.14
[ 3] XISreadEvent 0.128 0.005 0.133 35.56
[ 4] XIScoord 0.038 0.011 0.049 13.10
[ 5] XISeditEventFits 0.118 0.022 0.140 37.43
(others) 0.017 0.005 0.022 5.88
--------------------------------------------------------------------------
TOTAL 0.318 0.056 0.374 100.00
-> xiscoord successful on ae703029010xi0_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 ae703029010xi0_2_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi0_2_dun066.fff.infile,f,a,"ae703029010xi0_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,"ae703029010.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 ae703029010xi0_2_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi0_2_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 0.0)
ABERRATION YES
RAND_SEED 7
RAND_SKIP 0
BLANK -999
EDITMODE = 5
WINOPT = 0
WIN_ST = 0
XIScoord: updating header keywords ...
TLMIN8 = 1 / minimum legal value for DETX
TLMAX8 = 1024 / maximum legal value for DETX
TCRPX8 = 512.5 / DETX reference pixel
TCRVL8 = 0.0 / DETX reference pixel value (mm)
TCDLT8 = 0.024 / DETX pixel scale (mm/pixel)
OPTIC8 = 584.80 / DETX of the optical axis (pixel)
TLMIN9 = 1 / minimum legal value for DETY
TLMAX9 = 1024 / maximum legal value for DETY
TCRPX9 = 512.5 / DETY reference pixel
TCRVL9 = 0.0 / DETY reference pixel value (mm)
TCDLT9 = 0.024 / DETY pixel scale (mm/pixel)
OPTIC9 = 497.50 / DETY of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 7183 events )
... 10% ( 718 / 7183 events )
... 20% ( 1436 / 7183 events )
... 30% ( 2154 / 7183 events )
... 40% ( 2872 / 7183 events )
... 50% ( 3590 / 7183 events )
... 60% ( 4308 / 7183 events )
... 70% ( 5026 / 7183 events )
... 80% ( 5744 / 7183 events )
... 90% ( 6462 / 7183 events )
... 100% ( 7183 / 7183 events )
xisEventFitsUtil: rename ./file8fN72i-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 7185
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 7184/7185
[ 2] XISreadExp version 1.6
| OK: 7184/7184
[ 3] XISreadEvent version 2.7
| OK: 7183/7184 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 7183/7183
[ 5] XISeditEventFits version 2.1
| OK: 7183/7183
GET: 7183
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
7184 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
7184 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
7184 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
7183 : XIScoord:ENTRY
7183 : XIScoord:OK
1 : XISeditEventFits:BEGIN
7183 : XISeditEventFits:ENTRY
7183 : 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 9 9 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 7183 14366 SINGLE
XIS:PPUX 4 4 7183 14366 SINGLE
XIS:PPUY 4 4 7183 14366 SINGLE
XIS:RAWX 4 4 14366 7183 SINGLE
XIS:RAWY 4 4 14366 7183 SINGLE
XIS:ACTX 4 4 14366 7183 SINGLE
XIS:ACTY 4 4 14366 7183 SINGLE
XIS:DETX 4 4 14366 7183 SINGLE
XIS:DETY 4 4 14366 7183 SINGLE
XIS:PHAS 4 4 7183 7183 SINGLE
XIS:AEDATE 4 4 7183 7183 FAMILY
XIS:EXPTIME 4 4 7183 7183 FAMILY
XIS:EXPTIME_AETIME 8 8 7183 7183 SINGLE
XIS:S_TIME 8 8 7183 7183 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 7183 7183 FAMILY
XIS:EVENT_SEQ_NO 4 4 7183 7183 SINGLE
XIS:TIME 8 8 7183 14366 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 7185 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 5.76
[ 2] XISreadExp 0.000 0.003 0.003 1.08
[ 3] XISreadEvent 0.085 0.007 0.092 33.09
[ 4] XIScoord 0.032 0.005 0.037 13.31
[ 5] XISeditEventFits 0.088 0.017 0.105 37.77
(others) 0.017 0.008 0.025 8.99
--------------------------------------------------------------------------
TOTAL 0.234 0.044 0.278 100.00
-> xiscoord successful on ae703029010xi0_2_dun066.sff.
xisucode ver.2.3 [2007-05-30]
by Ken Ebisawa, M.OZAKI (ISAS), Y.ISHISAKI (TMU), H.MATSUMOTO (Kyoto Univ.)
ucodefile='ae_xis_ucodelst_20080112.fits'
[UCODE_LIST]
CODE_ID / micro-code ID
TGT_SENSOR / Sensor using this micro-code
CLKMOD / clocking mode (0:Normal, 1:Psum, 2:Burst)
WINOPT / window option (0:Off, 1:1/4, 2:1/8, 3:1/16)
WIN_ST / window start address
WIN_SIZ / window size
PSUM_L / row number summed in P-sum mode
CI / 0:no CI,1:diagn.CI,2:SCI-54rows,3:SCI-108rows
BINNING / binning of read-out pixels
SRAM_VER / S-RAM version number
SNAPTIME / exposure time
DELAY / delay time
[UCODE_LIST_SCI]
CODE_ID / micro-codel ID
SCI_PERIOD_RAWY / SCI periodicity
SCI_START_RAWY / SCI start rawy address
SCI_ISPEED / SCI speed
SCI_NROW / number of SCI rows
SCI_RAWY / list of SCI rows
SCI_AP4_NROW / number of SCI AP4 rows
SCI_AP4_RAWY / list of SCI AP4 rows
SCI_AP256_NROW / number of SCI AP256 rows
SCI_AP256_RAWY / list of SCI AP256 rows
### Processing ae703029010xi1_1_dun069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi1_1_dun069.fff.infile,f,a,"ae703029010xi1_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,"ae703029010.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 ae703029010xi1_1_dun069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_1_dun069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 / 12577 events )
... 10% ( 1257 / 12577 events )
... 20% ( 2514 / 12577 events )
... 30% ( 3771 / 12577 events )
... 40% ( 5028 / 12577 events )
... 50% ( 6285 / 12577 events )
... 60% ( 7542 / 12577 events )
... 70% ( 8799 / 12577 events )
... 80% ( 10056 / 12577 events )
... 90% ( 11313 / 12577 events )
... 100% ( 12577 / 12577 events )
xisEventFitsUtil: rename ./fileXZiHW6-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 12579
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 12578/12579
[ 2] XISreadExp version 1.6
| OK: 12578/12578
[ 3] XISreadEvent version 2.7
| OK: 12577/12578 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 12577/12577
[ 5] XISeditEventFits version 2.1
| OK: 12577/12577
GET: 12577
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
12578 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
12578 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
12578 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
12577 : XIScoord:ENTRY
12577 : XIScoord:OK
1 : XISeditEventFits:BEGIN
12577 : XISeditEventFits:ENTRY
12577 : 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 9 9 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 12577 25154 SINGLE
XIS:PPUX 4 4 12577 25154 SINGLE
XIS:PPUY 4 4 12577 25154 SINGLE
XIS:RAWX 4 4 25154 12577 SINGLE
XIS:RAWY 4 4 25154 12577 SINGLE
XIS:ACTX 4 4 25154 12577 SINGLE
XIS:ACTY 4 4 25154 12577 SINGLE
XIS:DETX 4 4 25154 12577 SINGLE
XIS:DETY 4 4 25154 12577 SINGLE
XIS:PHAS 4 4 12577 12577 SINGLE
XIS:AEDATE 4 4 12577 12577 FAMILY
XIS:EXPTIME 4 4 12577 12577 FAMILY
XIS:EXPTIME_AETIME 8 8 12577 12577 SINGLE
XIS:S_TIME 8 8 12577 12577 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 12577 12577 FAMILY
XIS:EVENT_SEQ_NO 4 4 12577 12577 SINGLE
XIS:TIME 8 8 12577 25154 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 12579 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 0.015 0.007 0.022 5.57
[ 2] XISreadExp 0.003 0.007 0.010 2.53
[ 3] XISreadEvent 0.132 0.006 0.138 34.94
[ 4] XIScoord 0.036 0.008 0.044 11.14
[ 5] XISeditEventFits 0.142 0.016 0.158 40.00
(others) 0.012 0.011 0.023 5.82
--------------------------------------------------------------------------
TOTAL 0.340 0.055 0.395 100.00
-> xiscoord successful on ae703029010xi1_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 ae703029010xi1_2_dun069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi1_2_dun069.fff.infile,f,a,"ae703029010xi1_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,"ae703029010.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 ae703029010xi1_2_dun069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi1_2_dun069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 / 8251 events )
... 10% ( 825 / 8251 events )
... 20% ( 1650 / 8251 events )
... 30% ( 2475 / 8251 events )
... 40% ( 3300 / 8251 events )
... 50% ( 4125 / 8251 events )
... 60% ( 4950 / 8251 events )
... 70% ( 5775 / 8251 events )
... 80% ( 6600 / 8251 events )
... 90% ( 7425 / 8251 events )
... 100% ( 8251 / 8251 events )
xisEventFitsUtil: rename ./fileMhD5nW-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 8253
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 8252/8253
[ 2] XISreadExp version 1.6
| OK: 8252/8252
[ 3] XISreadEvent version 2.7
| OK: 8251/8252 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 8251/8251
[ 5] XISeditEventFits version 2.1
| OK: 8251/8251
GET: 8251
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
8252 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
8252 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
8252 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
8251 : XIScoord:ENTRY
8251 : XIScoord:OK
1 : XISeditEventFits:BEGIN
8251 : XISeditEventFits:ENTRY
8251 : 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 9 9 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 8251 16502 SINGLE
XIS:PPUX 4 4 8251 16502 SINGLE
XIS:PPUY 4 4 8251 16502 SINGLE
XIS:RAWX 4 4 16502 8251 SINGLE
XIS:RAWY 4 4 16502 8251 SINGLE
XIS:ACTX 4 4 16502 8251 SINGLE
XIS:ACTY 4 4 16502 8251 SINGLE
XIS:DETX 4 4 16502 8251 SINGLE
XIS:DETY 4 4 16502 8251 SINGLE
XIS:PHAS 4 4 8251 8251 SINGLE
XIS:AEDATE 4 4 8251 8251 FAMILY
XIS:EXPTIME 4 4 8251 8251 FAMILY
XIS:EXPTIME_AETIME 8 8 8251 8251 SINGLE
XIS:S_TIME 8 8 8251 8251 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 8251 8251 FAMILY
XIS:EVENT_SEQ_NO 4 4 8251 8251 SINGLE
XIS:TIME 8 8 8251 16502 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 8253 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.008 0.005 0.013 4.51
[ 2] XISreadExp 0.002 0.004 0.006 2.08
[ 3] XISreadEvent 0.086 0.005 0.091 31.60
[ 4] XIScoord 0.032 0.006 0.038 13.19
[ 5] XISeditEventFits 0.107 0.010 0.117 40.62
(others) 0.014 0.009 0.023 7.99
--------------------------------------------------------------------------
TOTAL 0.249 0.039 0.288 100.00
-> xiscoord successful on ae703029010xi1_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 ae703029010xi3_1_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi3_1_dun066.fff.infile,f,a,"ae703029010xi3_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,"ae703029010.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 ae703029010xi3_1_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_1_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 / 10835 events )
... 10% ( 1083 / 10835 events )
... 20% ( 2166 / 10835 events )
... 30% ( 3249 / 10835 events )
... 40% ( 4332 / 10835 events )
... 50% ( 5415 / 10835 events )
... 60% ( 6498 / 10835 events )
... 70% ( 7581 / 10835 events )
... 80% ( 8664 / 10835 events )
... 90% ( 9747 / 10835 events )
... 100% ( 10835 / 10835 events )
xisEventFitsUtil: rename ./file1PykMJ-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 10837
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 10836/10837
[ 2] XISreadExp version 1.6
| OK: 10836/10836
[ 3] XISreadEvent version 2.7
| OK: 10835/10836 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 10835/10835
[ 5] XISeditEventFits version 2.1
| OK: 10835/10835
GET: 10835
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
10836 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
10836 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
10836 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
10835 : XIScoord:ENTRY
10835 : XIScoord:OK
1 : XISeditEventFits:BEGIN
10835 : XISeditEventFits:ENTRY
10835 : 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 9 9 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 10835 21670 SINGLE
XIS:PPUX 4 4 10835 21670 SINGLE
XIS:PPUY 4 4 10835 21670 SINGLE
XIS:RAWX 4 4 21670 10835 SINGLE
XIS:RAWY 4 4 21670 10835 SINGLE
XIS:ACTX 4 4 21670 10835 SINGLE
XIS:ACTY 4 4 21670 10835 SINGLE
XIS:DETX 4 4 21670 10835 SINGLE
XIS:DETY 4 4 21670 10835 SINGLE
XIS:PHAS 4 4 10835 10835 SINGLE
XIS:AEDATE 4 4 10835 10835 FAMILY
XIS:EXPTIME 4 4 10835 10835 FAMILY
XIS:EXPTIME_AETIME 8 8 10835 10835 SINGLE
XIS:S_TIME 8 8 10835 10835 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 10835 10835 FAMILY
XIS:EVENT_SEQ_NO 4 4 10835 10835 SINGLE
XIS:TIME 8 8 10835 21670 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 10837 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 4.37
[ 2] XISreadExp 0.001 0.002 0.003 0.82
[ 3] XISreadEvent 0.129 0.008 0.137 37.43
[ 4] XIScoord 0.036 0.009 0.045 12.29
[ 5] XISeditEventFits 0.122 0.019 0.141 38.53
(others) 0.015 0.009 0.024 6.56
--------------------------------------------------------------------------
TOTAL 0.315 0.051 0.366 100.00
-> xiscoord successful on ae703029010xi3_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 ae703029010xi3_2_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae703029010xi3_2_dun066.fff.infile,f,a,"ae703029010xi3_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,"ae703029010.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 ae703029010xi3_2_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae703029010xi3_2_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae703029010.att'
SKYREF (12.1911, 31.9636, 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 / 7033 events )
... 10% ( 703 / 7033 events )
... 20% ( 1406 / 7033 events )
... 30% ( 2109 / 7033 events )
... 40% ( 2812 / 7033 events )
... 50% ( 3515 / 7033 events )
... 60% ( 4218 / 7033 events )
... 70% ( 4921 / 7033 events )
... 80% ( 5624 / 7033 events )
... 90% ( 6327 / 7033 events )
... 100% ( 7033 / 7033 events )
xisEventFitsUtil: rename ./filefqdUcE-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 7035
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 7034/7035
[ 2] XISreadExp version 1.6
| OK: 7034/7034
[ 3] XISreadEvent version 2.7
| OK: 7033/7034 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 7033/7033
[ 5] XISeditEventFits version 2.1
| OK: 7033/7033
GET: 7033
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
7034 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
7034 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
7034 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
7033 : XIScoord:ENTRY
7033 : XIScoord:OK
1 : XISeditEventFits:BEGIN
7033 : XISeditEventFits:ENTRY
7033 : 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 9 9 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 7033 14066 SINGLE
XIS:PPUX 4 4 7033 14066 SINGLE
XIS:PPUY 4 4 7033 14066 SINGLE
XIS:RAWX 4 4 14066 7033 SINGLE
XIS:RAWY 4 4 14066 7033 SINGLE
XIS:ACTX 4 4 14066 7033 SINGLE
XIS:ACTY 4 4 14066 7033 SINGLE
XIS:DETX 4 4 14066 7033 SINGLE
XIS:DETY 4 4 14066 7033 SINGLE
XIS:PHAS 4 4 7033 7033 SINGLE
XIS:AEDATE 4 4 7033 7033 FAMILY
XIS:EXPTIME 4 4 7033 7033 FAMILY
XIS:EXPTIME_AETIME 8 8 7033 7033 SINGLE
XIS:S_TIME 8 8 7033 7033 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 7033 7033 FAMILY
XIS:EVENT_SEQ_NO 4 4 7033 7033 SINGLE
XIS:TIME 8 8 7033 14066 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 7035 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.009 0.003 0.012 4.69
[ 2] XISreadExp 0.003 0.002 0.005 1.95
[ 3] XISreadEvent 0.080 0.001 0.081 31.64
[ 4] XIScoord 0.033 0.007 0.040 15.63
[ 5] XISeditEventFits 0.084 0.011 0.095 37.11
(others) 0.016 0.007 0.023 8.98
--------------------------------------------------------------------------
TOTAL 0.225 0.031 0.256 100.00
-> xiscoord successful on ae703029010xi3_2_dun066.sff.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Create ae703029010xi0_2_conf_uf.gti from ae703029010xi0_2_3x3n066z_uf.evt
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae703029010xi0_0_3x3n066a_cl.evt
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S0_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.680094590000000E+08 2.680123414692436E+08 2.680155860000000E+08 2.680180940000000E+08 2.680216514677953E+08 2.680238460000000E+08 2.680276290000000E+08 2.680295990000000E+08 2.680336040000000E+08 2.680353510000000E+08 2.680378750000000E+08 2.680381830000000E+08 2.680394810000000E+08 2.680411030000000E+08 2.680436280000000E+08 2.680443740000000E+08 2.680449380000000E+08 2.680468550000000E+08 2.680493800000000E+08 2.680526080000000E+08 2.680551330000000E+08 2.680583600000000E+08 2.680608855863006E+08 2.680641120000000E+08 2.680666380000000E+08 2.680698650000000E+08 2.680723910000000E+08 2.680756170000000E+08 2.680781430000000E+08 2.680813690000000E+08 2.680838960000000E+08 2.680871210000000E+08 2.680896580000000E+08 2.680928740000000E+08 2.680957630000000E+08 2.680986260000000E+08 2.681019030000000E+08 2.681043790000000E+08 2.681079210000000E+08 2.681101310000000E+08 2.681138970000000E+08 2.681158830000000E+08 2.681198720000000E+08 2.681216350000000E+08 2.681241640000000E+08 2.681245020000000E+08 2.681256890000000E+08 2.681273880000000E+08 2.681299160000000E+08 2.681331400000000E+08 2.681356690000000E+08 2.681388920000000E+08 2.681414210000000E+08 2.681446450000000E+08 2.681471735746258E+08 2.681503970000000E+08 2.681529260000000E+08 2.681561500000000E+08 2.681586790000000E+08 2.681619015726553E+08 2.681644320000000E+08 2.681676540000000E+08 2.681701840000000E+08 2.681734070000000E+08 2.681759590000000E+08 2.681791590000000E+08 2.681820700000000E+08 2.681849110000000E+08 2.681882090000000E+08 2.681906640000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_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
62449 53741 0 8708 0 0 0
Writing events file
53741 events written to the output file
Doing file: ae703029010xi0_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
60146 52355 0 7791 0 0 0
Writing events file
106096 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
122595 106096 0 16499 0 0 0
in 74372. seconds
-> Running cleansis.datafile,s,h,"ae703029010xi0_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 : 106096
cleaning chip # 0
Hot pixels & counts : 8 11638
Flickering pixels iter, pixels & cnts : 1 13 97
cleaning chip # 1
Hot pixels & counts : 2 4546
Flickering pixels iter, pixels & cnts : 1 11 53
cleaning chip # 2
Hot pixels & counts : 3 5236
Flickering pixels iter, pixels & cnts : 1 19 106
cleaning chip # 3
Hot pixels & counts : 3 995
Flickering pixels iter, pixels & cnts : 1 23 92
Number of pixels rejected : 82
Number of (internal) image counts : 106096
Number of image cts rejected (N, %) : 22763 21.46
By chip : 0 1 2 3
Pixels rejected : 21 13 22 26
Image counts : 17258 21264 61439 6135
Image cts rejected: 11735 4599 5342 1087
Image cts rej (%) : 68.00 21.63 8.69 17.72
Total counts : 17258 21264 61439 6135
Total cts rejected: 11735 4599 5342 1087
Total cts rej (%) : 68.00 21.63 8.69 17.72
Number of clean counts accepted : 83333
Number of rejected pixels : 82
-> cleansis successful on ae703029010xi0_0_3x3n066a_cl.evt.((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S0_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.680094590000000E+08 2.680123414692436E+08 2.680155860000000E+08 2.680180940000000E+08 2.680216514677953E+08 2.680238460000000E+08 2.680276290000000E+08 2.680295990000000E+08 2.680336040000000E+08 2.680353510000000E+08 2.680378750000000E+08 2.680381830000000E+08 2.680394810000000E+08 2.680411030000000E+08 2.680436280000000E+08 2.680443740000000E+08 2.680449380000000E+08 2.680468550000000E+08 2.680493800000000E+08 2.680526080000000E+08 2.680551330000000E+08 2.680583600000000E+08 2.680608855863006E+08 2.680641120000000E+08 2.680666380000000E+08 2.680698650000000E+08 2.680723910000000E+08 2.680756170000000E+08 2.680781430000000E+08 2.680813690000000E+08 2.680838960000000E+08 2.680871210000000E+08 2.680896580000000E+08 2.680928740000000E+08 2.680957630000000E+08 2.680986260000000E+08 2.681019030000000E+08 2.681043790000000E+08 2.681079210000000E+08 2.681101310000000E+08 2.681138970000000E+08 2.681158830000000E+08 2.681198720000000E+08 2.681216350000000E+08 2.681241640000000E+08 2.681245020000000E+08 2.681256890000000E+08 2.681273880000000E+08 2.681299160000000E+08 2.681331400000000E+08 2.681356690000000E+08 2.681388920000000E+08 2.681414210000000E+08 2.681446450000000E+08 2.681471735746258E+08 2.681503970000000E+08 2.681529260000000E+08 2.681561500000000E+08 2.681586790000000E+08 2.681619015726553E+08 2.681644320000000E+08 2.681676540000000E+08 2.681701840000000E+08 2.681734070000000E+08 2.681759590000000E+08 2.681791590000000E+08 2.681820700000000E+08 2.681849110000000E+08 2.681882090000000E+08 2.681906640000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_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
13521 10294 0 3227 0 0 0
Writing events file
10294 events written to the output file
Doing file: ae703029010xi0_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
13412 11002 0 2410 0 0 0
Writing events file
21296 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
26933 21296 0 5637 0 0 0
in 14161. seconds
-> Running cleansis.datafile,s,h,"ae703029010xi0_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 : 21296
cleaning chip # 0
Hot pixels & counts : 6 1941
Flickering pixels iter, pixels & cnts : 1 3 20
cleaning chip # 1
Hot pixels & counts : 2 405
Flickering pixels iter, pixels & cnts : 1 1 3
cleaning chip # 2
Hot pixels & counts : 2 1364
Flickering pixels iter, pixels & cnts : 1 5 45
cleaning chip # 3
Hot pixels & counts : 2 350
Flickering pixels iter, pixels & cnts : 1 1 3
Number of pixels rejected : 22
Number of (internal) image counts : 21296
Number of image cts rejected (N, %) : 4131 19.40
By chip : 0 1 2 3
Pixels rejected : 9 3 7 3
Image counts : 3008 3734 13178 1376
Image cts rejected: 1961 408 1409 353
Image cts rej (%) : 65.19 10.93 10.69 25.65
Total counts : 3008 3734 13178 1376
Total cts rejected: 1961 408 1409 353
Total cts rej (%) : 65.19 10.93 10.69 25.65
Number of clean counts accepted : 17165
Number of rejected pixels : 22
-> cleansis successful on ae703029010xi0_0_5x5n066a_cl.evt.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Create ae703029010xi1_2_conf_uf.gti from ae703029010xi1_2_3x3n069z_uf.evt
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae703029010xi1_0_3x3n069b_cl.evt
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S1_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.680094590000000E+08 2.680123414692436E+08 2.680155860000000E+08 2.680180940000000E+08 2.680216514677953E+08 2.680238460000000E+08 2.680276290000000E+08 2.680295990000000E+08 2.680336040000000E+08 2.680353510000000E+08 2.680378750000000E+08 2.680381830000000E+08 2.680394810000000E+08 2.680411030000000E+08 2.680436280000000E+08 2.680443740000000E+08 2.680449380000000E+08 2.680468550000000E+08 2.680493800000000E+08 2.680526080000000E+08 2.680551330000000E+08 2.680583600000000E+08 2.680608855863006E+08 2.680641120000000E+08 2.680666380000000E+08 2.680698650000000E+08 2.680723910000000E+08 2.680756170000000E+08 2.680781430000000E+08 2.680813690000000E+08 2.680838960000000E+08 2.680871210000000E+08 2.680896580000000E+08 2.680928740000000E+08 2.680957630000000E+08 2.680986260000000E+08 2.681019030000000E+08 2.681043790000000E+08 2.681079210000000E+08 2.681101310000000E+08 2.681138970000000E+08 2.681158830000000E+08 2.681198720000000E+08 2.681216350000000E+08 2.681241640000000E+08 2.681245020000000E+08 2.681256890000000E+08 2.681273880000000E+08 2.681299160000000E+08 2.681331400000000E+08 2.681356690000000E+08 2.681388920000000E+08 2.681414210000000E+08 2.681446450000000E+08 2.681471735746258E+08 2.681503970000000E+08 2.681529260000000E+08 2.681561500000000E+08 2.681586790000000E+08 2.681619015726553E+08 2.681644320000000E+08 2.681676540000000E+08 2.681701840000000E+08 2.681734070000000E+08 2.681759590000000E+08 2.681791590000000E+08 2.681820700000000E+08 2.681849110000000E+08 2.681882090000000E+08 2.681906640000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_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
204166 171043 0 33123 0 0 0
Writing events file
171043 events written to the output file
Doing file: ae703029010xi1_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
197859 167409 0 30450 0 0 0
Writing events file
338452 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
402025 338452 0 63573 0 0 0
in 73300. seconds
-> Running cleansis.datafile,s,h,"ae703029010xi1_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 : 338452
Total counts in chip images : 338449
cleaning chip # 0
Hot pixels & counts : 32 36686
Flickering pixels iter, pixels & cnts : 1 1003 10770
Flickering pixels iter, pixels & cnts : 2 48 227
Flickering pixels iter, pixels & cnts : 3 2 8
cleaning chip # 1
Hot pixels & counts : 29 37174
Flickering pixels iter, pixels & cnts : 1 914 11140
Flickering pixels iter, pixels & cnts : 2 23 105
cleaning chip # 2
Hot pixels & counts : 25 28565
Flickering pixels iter, pixels & cnts : 1 840 10206
Flickering pixels iter, pixels & cnts : 2 30 118
cleaning chip # 3
Hot pixels & counts : 33 49697
Flickering pixels iter, pixels & cnts : 1 955 10532
Flickering pixels iter, pixels & cnts : 2 39 163
Flickering pixels iter, pixels & cnts : 3 2 8
Number of pixels rejected : 3975
Number of (internal) image counts : 338449
Number of image cts rejected (N, %) : 195399 57.73
By chip : 0 1 2 3
Pixels rejected : 1085 966 895 1029
Image counts : 69411 92541 95771 80726
Image cts rejected: 47691 48419 38889 60400
Image cts rej (%) : 68.71 52.32 40.61 74.82
Total counts : 69413 92541 95771 80727
Total cts rejected: 47691 48419 38889 60400
Total cts rej (%) : 68.71 52.32 40.61 74.82
Number of clean counts accepted : 143053
Number of rejected pixels : 3975
-> cleansis successful on ae703029010xi1_0_3x3n069b_cl.evt.((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S1_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.680094590000000E+08 2.680123414692436E+08 2.680155860000000E+08 2.680180940000000E+08 2.680216514677953E+08 2.680238460000000E+08 2.680276290000000E+08 2.680295990000000E+08 2.680336040000000E+08 2.680353510000000E+08 2.680378750000000E+08 2.680381830000000E+08 2.680394810000000E+08 2.680411030000000E+08 2.680436280000000E+08 2.680443740000000E+08 2.680449380000000E+08 2.680468550000000E+08 2.680493800000000E+08 2.680526080000000E+08 2.680551330000000E+08 2.680583600000000E+08 2.680608855863006E+08 2.680641120000000E+08 2.680666380000000E+08 2.680698650000000E+08 2.680723910000000E+08 2.680756170000000E+08 2.680781430000000E+08 2.680813690000000E+08 2.680838960000000E+08 2.680871210000000E+08 2.680896580000000E+08 2.680928740000000E+08 2.680957630000000E+08 2.680986260000000E+08 2.681019030000000E+08 2.681043790000000E+08 2.681079210000000E+08 2.681101310000000E+08 2.681138970000000E+08 2.681158830000000E+08 2.681198720000000E+08 2.681216350000000E+08 2.681241640000000E+08 2.681245020000000E+08 2.681256890000000E+08 2.681273880000000E+08 2.681299160000000E+08 2.681331400000000E+08 2.681356690000000E+08 2.681388920000000E+08 2.681414210000000E+08 2.681446450000000E+08 2.681471735746258E+08 2.681503970000000E+08 2.681529260000000E+08 2.681561500000000E+08 2.681586790000000E+08 2.681619015726553E+08 2.681644320000000E+08 2.681676540000000E+08 2.681701840000000E+08 2.681734070000000E+08 2.681759590000000E+08 2.681791590000000E+08 2.681820700000000E+08 2.681849110000000E+08 2.681882090000000E+08 2.681906640000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_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
59433 29220 0 30213 0 0 0
Writing events file
29220 events written to the output file
Doing file: ae703029010xi1_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
56358 33406 0 22952 0 0 0
Writing events file
62626 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
115791 62626 0 53165 0 0 0
in 14161. seconds
-> Running cleansis.datafile,s,h,"ae703029010xi1_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 : 62626
Total counts in chip images : 62625
cleaning chip # 0
Hot pixels & counts : 24 8362
Flickering pixels iter, pixels & cnts : 1 175 1153
Flickering pixels iter, pixels & cnts : 2 5 18
cleaning chip # 1
Hot pixels & counts : 23 6835
Flickering pixels iter, pixels & cnts : 1 195 1468
Flickering pixels iter, pixels & cnts : 2 2 6
cleaning chip # 2
Hot pixels & counts : 18 6251
Flickering pixels iter, pixels & cnts : 1 158 1171
Flickering pixels iter, pixels & cnts : 2 3 10
cleaning chip # 3
Hot pixels & counts : 27 7816
Flickering pixels iter, pixels & cnts : 1 135 978
Number of pixels rejected : 765
Number of (internal) image counts : 62625
Number of image cts rejected (N, %) : 34068 54.40
By chip : 0 1 2 3
Pixels rejected : 204 220 179 162
Image counts : 13729 17155 19109 12632
Image cts rejected: 9533 8309 7432 8794
Image cts rej (%) : 69.44 48.43 38.89 69.62
Total counts : 13729 17155 19109 12633
Total cts rejected: 9533 8309 7432 8794
Total cts rej (%) : 69.44 48.43 38.89 69.61
Number of clean counts accepted : 28558
Number of rejected pixels : 765
-> cleansis successful on ae703029010xi1_0_5x5n069b_cl.evt.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Create ae703029010xi3_2_conf_uf.gti from ae703029010xi3_2_3x3n066z_uf.evt
PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae703029010xi3_0_3x3n066a_cl.evt
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S3_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.680094590000000E+08 2.680123414692436E+08 2.680155860000000E+08 2.680180940000000E+08 2.680216514677953E+08 2.680238460000000E+08 2.680276290000000E+08 2.680295990000000E+08 2.680336040000000E+08 2.680353510000000E+08 2.680378750000000E+08 2.680381830000000E+08 2.680394810000000E+08 2.680411030000000E+08 2.680436280000000E+08 2.680443740000000E+08 2.680449380000000E+08 2.680468550000000E+08 2.680493800000000E+08 2.680526080000000E+08 2.680551330000000E+08 2.680583600000000E+08 2.680608855863006E+08 2.680641120000000E+08 2.680666380000000E+08 2.680698650000000E+08 2.680723910000000E+08 2.680756170000000E+08 2.680781430000000E+08 2.680813690000000E+08 2.680838960000000E+08 2.680871210000000E+08 2.680896580000000E+08 2.680928740000000E+08 2.680957630000000E+08 2.680986260000000E+08 2.681019030000000E+08 2.681043790000000E+08 2.681079210000000E+08 2.681101310000000E+08 2.681138970000000E+08 2.681158830000000E+08 2.681198720000000E+08 2.681216350000000E+08 2.681241640000000E+08 2.681245020000000E+08 2.681256890000000E+08 2.681273880000000E+08 2.681299160000000E+08 2.681331400000000E+08 2.681356690000000E+08 2.681388920000000E+08 2.681414210000000E+08 2.681446450000000E+08 2.681471735746258E+08 2.681503970000000E+08 2.681529260000000E+08 2.681561500000000E+08 2.681586790000000E+08 2.681619015726553E+08 2.681644320000000E+08 2.681676540000000E+08 2.681701840000000E+08 2.681734070000000E+08 2.681759590000000E+08 2.681791590000000E+08 2.681820700000000E+08 2.681849110000000E+08 2.681882090000000E+08 2.681906640000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_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
57460 49745 0 7715 0 0 0
Writing events file
49745 events written to the output file
Doing file: ae703029010xi3_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
52772 46173 0 6599 0 0 0
Writing events file
95918 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
110232 95918 0 14314 0 0 0
in 74372. seconds
-> Running cleansis.datafile,s,h,"ae703029010xi3_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 : 95918
cleaning chip # 0
Hot pixels & counts : 6 5693
Flickering pixels iter, pixels & cnts : 1 17 89
cleaning chip # 1
Hot pixels & counts : 1 515
Flickering pixels iter, pixels & cnts : 1 18 90
cleaning chip # 2
Hot pixels & counts : 1 2123
Flickering pixels iter, pixels & cnts : 1 11 110
cleaning chip # 3
Hot pixels & counts : 2 298
Flickering pixels iter, pixels & cnts : 1 15 93
Number of pixels rejected : 71
Number of (internal) image counts : 95918
Number of image cts rejected (N, %) : 9011 9.39
By chip : 0 1 2 3
Pixels rejected : 23 19 12 17
Image counts : 11586 20509 58291 5532
Image cts rejected: 5782 605 2233 391
Image cts rej (%) : 49.91 2.95 3.83 7.07
Total counts : 11586 20509 58291 5532
Total cts rejected: 5782 605 2233 391
Total cts rej (%) : 49.91 2.95 3.83 7.07
Number of clean counts accepted : 86907
Number of rejected pixels : 71
-> cleansis successful on ae703029010xi3_0_3x3n066a_cl.evt.((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && (STATUS=0:524287)-> Creating GTIs.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV > 5 && DYE_ELV>20 && ANG_DIST < 1.5 && S3_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_1.tmp x35 x
2.680094590000000E+08 2.680123414692436E+08 2.680155860000000E+08 2.680180940000000E+08 2.680216514677953E+08 2.680238460000000E+08 2.680276290000000E+08 2.680295990000000E+08 2.680336040000000E+08 2.680353510000000E+08 2.680378750000000E+08 2.680381830000000E+08 2.680394810000000E+08 2.680411030000000E+08 2.680436280000000E+08 2.680443740000000E+08 2.680449380000000E+08 2.680468550000000E+08 2.680493800000000E+08 2.680526080000000E+08 2.680551330000000E+08 2.680583600000000E+08 2.680608855863006E+08 2.680641120000000E+08 2.680666380000000E+08 2.680698650000000E+08 2.680723910000000E+08 2.680756170000000E+08 2.680781430000000E+08 2.680813690000000E+08 2.680838960000000E+08 2.680871210000000E+08 2.680896580000000E+08 2.680928740000000E+08 2.680957630000000E+08 2.680986260000000E+08 2.681019030000000E+08 2.681043790000000E+08 2.681079210000000E+08 2.681101310000000E+08 2.681138970000000E+08 2.681158830000000E+08 2.681198720000000E+08 2.681216350000000E+08 2.681241640000000E+08 2.681245020000000E+08 2.681256890000000E+08 2.681273880000000E+08 2.681299160000000E+08 2.681331400000000E+08 2.681356690000000E+08 2.681388920000000E+08 2.681414210000000E+08 2.681446450000000E+08 2.681471735746258E+08 2.681503970000000E+08 2.681529260000000E+08 2.681561500000000E+08 2.681586790000000E+08 2.681619015726553E+08 2.681644320000000E+08 2.681676540000000E+08 2.681701840000000E+08 2.681734070000000E+08 2.681759590000000E+08 2.681791590000000E+08 2.681820700000000E+08 2.681849110000000E+08 2.681882090000000E+08 2.681906640000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_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
12510 9594 0 2916 0 0 0
Writing events file
9594 events written to the output file
Doing file: ae703029010xi3_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
12410 10301 0 2109 0 0 0
Writing events file
19895 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
24920 19895 0 5025 0 0 0
in 14161. seconds
-> Running cleansis.datafile,s,h,"ae703029010xi3_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 : 19895
cleaning chip # 0
Hot pixels & counts : 4 1468
Flickering pixels iter, pixels & cnts : 1 2 10
cleaning chip # 1
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 4 12
cleaning chip # 2
Hot pixels & counts : 2 393
Flickering pixels iter, pixels & cnts : 1 5 15
cleaning chip # 3
Hot pixels & counts : 2 272
Flickering pixels iter, pixels & cnts : 1 2 11
Number of pixels rejected : 21
Number of (internal) image counts : 19895
Number of image cts rejected (N, %) : 2181 10.96
By chip : 0 1 2 3
Pixels rejected : 6 4 7 4
Image counts : 2571 4033 12049 1242
Image cts rejected: 1478 12 408 283
Image cts rej (%) : 57.49 0.30 3.39 22.79
Total counts : 2571 4033 12049 1242
Total cts rejected: 1478 12 408 283
Total cts rej (%) : 57.49 0.30 3.39 22.79
Number of clean counts accepted : 17714
Number of rejected pixels : 21
-> cleansis successful on ae703029010xi3_0_5x5n066a_cl.evt.((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287))-> Creating GTIs.
S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_2.tmp x1 x
2.680069752192675E+08 2.681907090717928E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_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
5326 5326 0 0 0 0 0
Writing events file
5326 events written to the output file
Doing file: ae703029010xi0_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
4875 4875 0 0 0 0 0
Writing events file
10201 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
10201 10201 0 0 0 0 0
in 86896. seconds
((GRADE=0:0) || (GRADE=2:4) || (GRADE=6:6)) && ((STATUS=65536:131071) || (STATUS=196608:262143) || (STATUS=327680:393215) || (STATUS=458752:524287))-> Creating GTIs.
S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_2.tmp x1 x
2.680069752192675E+08 2.681907090717928E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_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
1339 1339 0 0 0 0 0
Writing events file
1339 events written to the output file
Doing file: ae703029010xi0_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
1100 1100 0 0 0 0 0
Writing events file
2439 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
2439 2439 0 0 0 0 0
in 20918. 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
2.680069792192670E+08 2.681906970691086E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_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
14157 14157 0 0 0 0 0
Writing events file
14157 events written to the output file
Doing file: ae703029010xi1_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
14699 14699 0 0 0 0 0
Writing events file
28856 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
28856 28856 0 0 0 0 0
in 84952. 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
2.680069792192670E+08 2.681906970691086E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_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
5643 5639 0 4 0 0 0
Writing events file
5639 events written to the output file
Doing file: ae703029010xi1_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
3539 3539 0 0 0 0 0
Writing events file
9178 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9182 9178 0 4 0 0 0
in 20658. 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
2.680069872192659E+08 2.681907050688636E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_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
6306 6306 0 0 0 0 0
Writing events file
6306 events written to the output file
Doing file: ae703029010xi3_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
3410 3410 0 0 0 0 0
Writing events file
9716 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
9716 9716 0 0 0 0 0
in 86904. 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
2.680069872192659E+08 2.681907050688636E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_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
1981 1980 0 1 0 0 0
Writing events file
1980 events written to the output file
Doing file: ae703029010xi3_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
1366 1366 0 0 0 0 0
Writing events file
3346 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
3347 3346 0 1 0 0 0
in 20906. seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < 0 && NTE_ELV>0 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_3.tmp x32 x
2.680069752192675E+08 2.680072608427637E+08 2.680072768427603E+08 2.680075888427147E+08 2.680126740000000E+08 2.680128688419862E+08 2.680128768419842E+08 2.680128928419833E+08 2.680129088419803E+08 2.680129568419753E+08 2.680129728419723E+08 2.680134680000000E+08 2.680184260000000E+08 2.680187408412304E+08 2.680187728412262E+08 2.680192220000000E+08 2.680241780000000E+08 2.680241888405827E+08 2.680299300000000E+08 2.680299488398041E+08 2.680356820000000E+08 2.680356848390263E+08 2.680414340000000E+08 2.680414368382455E+08 2.680471860000000E+08 2.680471968374633E+08 2.680529380000000E+08 2.680529568366792E+08 2.680586900000000E+08 2.680587168358937E+08 2.680644420000000E+08 2.680644448351150E+08 2.680701940000000E+08 2.680702048343358E+08 2.680759460000000E+08 2.680759648335551E+08 2.680816980000000E+08 2.680817248327718E+08 2.680874510000000E+08 2.680874528319951E+08 2.680932030000000E+08 2.680932208312124E+08 2.680989550000000E+08 2.680989808304341E+08 2.681047070000000E+08 2.681047248296585E+08 2.681104590000000E+08 2.681104848288847E+08 2.681162110000000E+08 2.681162288281108E+08 2.681219630000000E+08 2.681219648273337E+08 2.681334680000000E+08 2.681334768257779E+08 2.681392200000000E+08 2.681392368249977E+08 2.681449720000000E+08 2.681449888242171E+08 2.681507240000000E+08 2.681507408234393E+08 2.681564760000000E+08 2.681564848226644E+08 2.681622280000000E+08 2.681622448218845E+08 2.681679810000000E+08 2.681680048211030E+08 2.681737330000000E+08 2.681737488203247E+08 2.681794850000000E+08 2.681795248195256E+08 2.681796848195047E+08 2.681797008195037E+08 2.681797168195007E+08 2.681797248195007E+08 2.681797488194966E+08 2.681801088194492E+08 2.681852370000000E+08 2.681854128186654E+08 2.681854208186634E+08 2.681854368186624E+08 2.681854608186584E+08 2.681855168186524E+08 2.681855248186503E+08 2.681860890000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_1_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
309449 869 0 308580 0 0 0
Writing events file
869 events written to the output file
Doing file: ae703029010xi0_2_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
289827 1311 0 288516 0 0 0
Writing events file
2180 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
599276 2180 0 597096 0 0 0
in 384.60 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < -5 && DYE_ELV>100 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_3.tmp x24 x
2.680195770000000E+08 2.680198288410939E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_1_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
309449 0 0 309449 0 0 0
Writing events file
0 events written to the output file
Doing file: ae703029010xi0_2_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
289827 0 0 289827 0 0 0
Writing events file
0 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
599276 0 0 599276 0 0 0
in 0.0000 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < 0 && NTE_ELV>0 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_3.tmp x32 x
2.680069752192675E+08 2.680072608427637E+08 2.680072768427603E+08 2.680075888427147E+08 2.680126740000000E+08 2.680128688419862E+08 2.680128768419842E+08 2.680128928419833E+08 2.680129088419803E+08 2.680129568419753E+08 2.680129728419723E+08 2.680134680000000E+08 2.680184260000000E+08 2.680187408412304E+08 2.680187728412262E+08 2.680192220000000E+08 2.680241780000000E+08 2.680241888405827E+08 2.680299300000000E+08 2.680299488398041E+08 2.680356820000000E+08 2.680356848390263E+08 2.680414340000000E+08 2.680414368382455E+08 2.680471860000000E+08 2.680471968374633E+08 2.680529380000000E+08 2.680529568366792E+08 2.680586900000000E+08 2.680587168358937E+08 2.680644420000000E+08 2.680644448351150E+08 2.680701940000000E+08 2.680702048343358E+08 2.680759460000000E+08 2.680759648335551E+08 2.680816980000000E+08 2.680817248327718E+08 2.680874510000000E+08 2.680874528319951E+08 2.680932030000000E+08 2.680932208312124E+08 2.680989550000000E+08 2.680989808304341E+08 2.681047070000000E+08 2.681047248296585E+08 2.681104590000000E+08 2.681104848288847E+08 2.681162110000000E+08 2.681162288281108E+08 2.681219630000000E+08 2.681219648273337E+08 2.681334680000000E+08 2.681334768257779E+08 2.681392200000000E+08 2.681392368249977E+08 2.681449720000000E+08 2.681449888242171E+08 2.681507240000000E+08 2.681507408234393E+08 2.681564760000000E+08 2.681564848226644E+08 2.681622280000000E+08 2.681622448218845E+08 2.681679810000000E+08 2.681680048211030E+08 2.681737330000000E+08 2.681737488203247E+08 2.681794850000000E+08 2.681795248195256E+08 2.681796848195047E+08 2.681797008195037E+08 2.681797168195007E+08 2.681797248195007E+08 2.681797488194966E+08 2.681801088194492E+08 2.681852370000000E+08 2.681854128186654E+08 2.681854208186634E+08 2.681854368186624E+08 2.681854608186584E+08 2.681855168186524E+08 2.681855248186503E+08 2.681860890000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_1_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
85351 16925 0 68426 0 0 0
Writing events file
16925 events written to the output file
Doing file: ae703029010xi0_2_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
90251 10200 0 80051 0 0 0
Writing events file
27125 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
175602 27125 0 148477 0 0 0
in 3351.4 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < -5 && DYE_ELV>100 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_3.tmp x24 x
2.680195770000000E+08 2.680198288410939E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_1_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
85351 1650 0 83701 0 0 0
Writing events file
1650 events written to the output file
Doing file: ae703029010xi0_2_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
90251 0 0 90251 0 0 0
Writing events file
1650 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
175602 1650 0 173952 0 0 0
in 251.84 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 x32 x
2.680069792192670E+08 2.680073488427510E+08 2.680073568427486E+08 2.680075888427147E+08 2.680126740000000E+08 2.680129328419783E+08 2.680129408419763E+08 2.680129808419723E+08 2.680129888419703E+08 2.680134680000000E+08 2.680184260000000E+08 2.680184688412572E+08 2.680184768412557E+08 2.680185408412504E+08 2.680185568412480E+08 2.680185968412449E+08 2.680186048412434E+08 2.680186768412369E+08 2.680186848412353E+08 2.680187328412312E+08 2.680187488412287E+08 2.680192220000000E+08 2.680299300000000E+08 2.680299488398041E+08 2.680356820000000E+08 2.680356848390263E+08 2.680357008390235E+08 2.680357088390235E+08 2.680414448382437E+08 2.680414608382428E+08 2.680471860000000E+08 2.680471968374633E+08 2.680529380000000E+08 2.680529568366792E+08 2.680586900000000E+08 2.680587168358937E+08 2.680644420000000E+08 2.680644448351150E+08 2.680701940000000E+08 2.680702048343358E+08 2.680759460000000E+08 2.680759648335551E+08 2.680816980000000E+08 2.680817248327718E+08 2.680874608319933E+08 2.680874688319933E+08 2.680932030000000E+08 2.680932128312133E+08 2.680989550000000E+08 2.680989728304350E+08 2.681047070000000E+08 2.681047248296585E+08 2.681104590000000E+08 2.681104848288847E+08 2.681162110000000E+08 2.681162288281108E+08 2.681219630000000E+08 2.681219648273337E+08 2.681219808273310E+08 2.681219888273310E+08 2.681334680000000E+08 2.681334768257779E+08 2.681392200000000E+08 2.681392368249977E+08 2.681449720000000E+08 2.681449888242171E+08 2.681507240000000E+08 2.681507248234411E+08 2.681564760000000E+08 2.681564848226644E+08 2.681622280000000E+08 2.681622448218845E+08 2.681679888211039E+08 2.681680048211030E+08 2.681737330000000E+08 2.681737408203256E+08 2.681794850000000E+08 2.681795408195236E+08 2.681795488195216E+08 2.681795808195187E+08 2.681795888195167E+08 2.681796288195127E+08 2.681796368195107E+08 2.681797008195037E+08 2.681797088195017E+08 2.681797248195007E+08 2.681797328194987E+08 2.681801088194492E+08 2.681852370000000E+08 2.681854128186654E+08 2.681854208186634E+08 2.681854368186624E+08 2.681854448186604E+08 2.681855168186524E+08 2.681855248186503E+08 2.681860890000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_1_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
600457 3851 0 596606 0 0 0
Writing events file
3851 events written to the output file
Doing file: ae703029010xi1_2_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
686805 4413 0 682392 0 0 0
Writing events file
8264 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
1287262 8264 0 1278998 0 0 0
in 361.26 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 x24 x
2.680195770000000E+08 2.680198288410939E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_1_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
600457 0 0 600457 0 0 0
Writing events file
0 events written to the output file
Doing file: ae703029010xi1_2_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
686805 0 0 686805 0 0 0
Writing events file
0 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
1287262 0 0 1287262 0 0 0
in 0.0000 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 x32 x
2.680069792192670E+08 2.680073488427510E+08 2.680073568427486E+08 2.680075888427147E+08 2.680126740000000E+08 2.680129328419783E+08 2.680129408419763E+08 2.680129808419723E+08 2.680129888419703E+08 2.680134680000000E+08 2.680184260000000E+08 2.680184688412572E+08 2.680184768412557E+08 2.680185408412504E+08 2.680185568412480E+08 2.680185968412449E+08 2.680186048412434E+08 2.680186768412369E+08 2.680186848412353E+08 2.680187328412312E+08 2.680187488412287E+08 2.680192220000000E+08 2.680299300000000E+08 2.680299488398041E+08 2.680356820000000E+08 2.680356848390263E+08 2.680357008390235E+08 2.680357088390235E+08 2.680414448382437E+08 2.680414608382428E+08 2.680471860000000E+08 2.680471968374633E+08 2.680529380000000E+08 2.680529568366792E+08 2.680586900000000E+08 2.680587168358937E+08 2.680644420000000E+08 2.680644448351150E+08 2.680701940000000E+08 2.680702048343358E+08 2.680759460000000E+08 2.680759648335551E+08 2.680816980000000E+08 2.680817248327718E+08 2.680874608319933E+08 2.680874688319933E+08 2.680932030000000E+08 2.680932128312133E+08 2.680989550000000E+08 2.680989728304350E+08 2.681047070000000E+08 2.681047248296585E+08 2.681104590000000E+08 2.681104848288847E+08 2.681162110000000E+08 2.681162288281108E+08 2.681219630000000E+08 2.681219648273337E+08 2.681219808273310E+08 2.681219888273310E+08 2.681334680000000E+08 2.681334768257779E+08 2.681392200000000E+08 2.681392368249977E+08 2.681449720000000E+08 2.681449888242171E+08 2.681507240000000E+08 2.681507248234411E+08 2.681564760000000E+08 2.681564848226644E+08 2.681622280000000E+08 2.681622448218845E+08 2.681679888211039E+08 2.681680048211030E+08 2.681737330000000E+08 2.681737408203256E+08 2.681794850000000E+08 2.681795408195236E+08 2.681795488195216E+08 2.681795808195187E+08 2.681795888195167E+08 2.681796288195127E+08 2.681796368195107E+08 2.681797008195037E+08 2.681797088195017E+08 2.681797248195007E+08 2.681797328194987E+08 2.681801088194492E+08 2.681852370000000E+08 2.681854128186654E+08 2.681854208186634E+08 2.681854368186624E+08 2.681854448186604E+08 2.681855168186524E+08 2.681855248186503E+08 2.681860890000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_1_5x5n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
218907 43462 0 175445 0 0 0
Writing events file
43462 events written to the output file
Doing file: ae703029010xi1_2_5x5n069z_uf.evt
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100% completed
Total Good Bad: Region Time Phase Grade Cut
220084 34510 0 185574 0 0 0
Writing events file
77972 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
438991 77972 0 361019 0 0 0
in 3531.4 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 x24 x
2.680195770000000E+08 2.680198288410939E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_1_5x5n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
218907 2586 0 216321 0 0 0
Writing events file
2586 events written to the output file
Doing file: ae703029010xi1_2_5x5n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
220084 0 0 220084 0 0 0
Writing events file
2586 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
438991 2586 0 436405 0 0 0
in 251.84 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 x32 x
2.680069872192659E+08 2.680075888427147E+08 2.680126740000000E+08 2.680129648419743E+08 2.680129728419723E+08 2.680134680000000E+08 2.680184260000000E+08 2.680192220000000E+08 2.680241780000000E+08 2.680241888405827E+08 2.680299300000000E+08 2.680299488398041E+08 2.680356820000000E+08 2.680356848390263E+08 2.680414340000000E+08 2.680414368382455E+08 2.680471860000000E+08 2.680471968374633E+08 2.680529380000000E+08 2.680529568366792E+08 2.680586900000000E+08 2.680587168358937E+08 2.680644420000000E+08 2.680644608351132E+08 2.680701940000000E+08 2.680702048343358E+08 2.680759460000000E+08 2.680759648335551E+08 2.680816980000000E+08 2.680817248327718E+08 2.680874510000000E+08 2.680874528319951E+08 2.680932030000000E+08 2.680932208312124E+08 2.680989550000000E+08 2.680989808304341E+08 2.681047070000000E+08 2.681047248296585E+08 2.681104590000000E+08 2.681104848288847E+08 2.681162110000000E+08 2.681162288281108E+08 2.681219630000000E+08 2.681219648273337E+08 2.681277150000000E+08 2.681277168265556E+08 2.681334680000000E+08 2.681334768257779E+08 2.681392200000000E+08 2.681392368249977E+08 2.681449720000000E+08 2.681449888242171E+08 2.681507240000000E+08 2.681507408234393E+08 2.681564760000000E+08 2.681564848226644E+08 2.681622280000000E+08 2.681622448218845E+08 2.681679810000000E+08 2.681680048211030E+08 2.681737330000000E+08 2.681737488203247E+08 2.681794850000000E+08 2.681795408195236E+08 2.681796208195127E+08 2.681796288195127E+08 2.681796528195087E+08 2.681796608195087E+08 2.681796848195047E+08 2.681797248195007E+08 2.681797488194966E+08 2.681801088194492E+08 2.681852370000000E+08 2.681860890000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_1_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
316935 827 0 316108 0 0 0
Writing events file
827 events written to the output file
Doing file: ae703029010xi3_2_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
290843 726 0 290117 0 0 0
Writing events file
1553 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
607778 1553 0 606225 0 0 0
in 402.42 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 x24 x
2.680195770000000E+08 2.680198288410939E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_1_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
316935 0 0 316935 0 0 0
Writing events file
0 events written to the output file
Doing file: ae703029010xi3_2_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
290843 0 0 290843 0 0 0
Writing events file
0 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
607778 0 0 607778 0 0 0
in 0.0000 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 x32 x
2.680069872192659E+08 2.680075888427147E+08 2.680126740000000E+08 2.680129648419743E+08 2.680129728419723E+08 2.680134680000000E+08 2.680184260000000E+08 2.680192220000000E+08 2.680241780000000E+08 2.680241888405827E+08 2.680299300000000E+08 2.680299488398041E+08 2.680356820000000E+08 2.680356848390263E+08 2.680414340000000E+08 2.680414368382455E+08 2.680471860000000E+08 2.680471968374633E+08 2.680529380000000E+08 2.680529568366792E+08 2.680586900000000E+08 2.680587168358937E+08 2.680644420000000E+08 2.680644608351132E+08 2.680701940000000E+08 2.680702048343358E+08 2.680759460000000E+08 2.680759648335551E+08 2.680816980000000E+08 2.680817248327718E+08 2.680874510000000E+08 2.680874528319951E+08 2.680932030000000E+08 2.680932208312124E+08 2.680989550000000E+08 2.680989808304341E+08 2.681047070000000E+08 2.681047248296585E+08 2.681104590000000E+08 2.681104848288847E+08 2.681162110000000E+08 2.681162288281108E+08 2.681219630000000E+08 2.681219648273337E+08 2.681277150000000E+08 2.681277168265556E+08 2.681334680000000E+08 2.681334768257779E+08 2.681392200000000E+08 2.681392368249977E+08 2.681449720000000E+08 2.681449888242171E+08 2.681507240000000E+08 2.681507408234393E+08 2.681564760000000E+08 2.681564848226644E+08 2.681622280000000E+08 2.681622448218845E+08 2.681679810000000E+08 2.681680048211030E+08 2.681737330000000E+08 2.681737488203247E+08 2.681794850000000E+08 2.681795408195236E+08 2.681796208195127E+08 2.681796288195127E+08 2.681796528195087E+08 2.681796608195087E+08 2.681796848195047E+08 2.681797248195007E+08 2.681797488194966E+08 2.681801088194492E+08 2.681852370000000E+08 2.681860890000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_1_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
76155 14970 0 61185 0 0 0
Writing events file
14970 events written to the output file
Doing file: ae703029010xi3_2_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
83022 11473 0 71549 0 0 0
Writing events file
26443 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
159177 26443 0 132734 0 0 0
in 3507.4 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 x24 x
2.680195770000000E+08 2.680198288410939E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_1_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
76155 1593 0 74562 0 0 0
Writing events file
1593 events written to the output file
Doing file: ae703029010xi3_2_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
83022 0 0 83022 0 0 0
Writing events file
1593 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
159177 1593 0 157584 0 0 0
in 251.84 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
-> ae703029010hxd_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
-> ae703029010hxd_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 x45 x
2.680098934695378E+08 2.680098974695372E+08 2.680099414695302E+08 2.680099454697737E+08 2.680099614695271E+08 2.680099734695252E+08 2.680099774695246E+08 2.680099854697674E+08 2.680100054695202E+08 2.680100294695165E+08 2.680100334695159E+08 2.680100374697594E+08 2.680100414695146E+08 2.680100614697557E+08 2.680100654695110E+08 2.680100694695104E+08 2.680100814695085E+08 2.680100854699962E+08 2.680100894695073E+08 2.680100934695067E+08 2.680100974695061E+08 2.680101574694972E+08 2.680101614694966E+08 2.680101734694949E+08 2.680101774694943E+08 2.680102094694897E+08 2.680102974694772E+08 2.680103014694767E+08 2.680103174697186E+08 2.680103254697175E+08 2.680103294694729E+08 2.680103334694723E+08 2.680103814694658E+08 2.680103854697094E+08 2.680104974696949E+08 2.680105054696938E+08 2.680105134696928E+08 2.680105174694482E+08 2.680105254694472E+08 2.680105294694467E+08 2.680105334694462E+08 2.680105374696898E+08 2.680105574694432E+08 2.680105614694427E+08 2.680105734694413E+08 2.680105774696849E+08 2.680105814694403E+08 2.680105854694398E+08 2.680105894694393E+08 2.680106094696810E+08 2.680106134694364E+08 2.680106254694350E+08 2.680106294694345E+08 2.680106454694326E+08 2.680106494694321E+08 2.680106574694312E+08 2.680106774694288E+08 2.680106894694274E+08 2.680106974694264E+08 2.680107294694227E+08 2.680107334696664E+08 2.680108214694120E+08 2.680108234694118E+08 2.680125910000000E+08 2.680163374686703E+08 2.680163414686699E+08 2.680166294686387E+08 2.680166334686382E+08 2.680166454686370E+08 2.680166494688807E+08 2.680166534688802E+08 2.680166574688798E+08 2.680166654686348E+08 2.680166734686339E+08 2.680166814688772E+08 2.680166974686313E+08 2.680167014686309E+08 2.680167134686295E+08 2.680167174686291E+08 2.680167454686260E+08 2.680167494686255E+08 2.680167614686242E+08 2.680167654686238E+08 2.680168494686143E+08 2.680168534686139E+08 2.680169214686061E+08 2.680169234686059E+08 2.680169494688470E+08 2.680169514686027E+08 2.680169594686017E+08 2.680169614686015E+08 2.680169634686013E+08 2.680169674688450E+08 2.680169874685985E+08 2.680169914685981E+08 2.680170054685965E+08 2.680170074685962E+08 2.680170094688401E+08 2.680170114685957E+08 2.680170154688394E+08 2.680170174685951E+08 2.680170194688390E+08 2.680170214688388E+08 2.680170314685934E+08 2.680170374685927E+08 2.680170474685916E+08 2.680170494685913E+08 2.680170534688350E+08 2.680170554685906E+08 2.680170694685890E+08 2.680170714685887E+08 2.680170794688320E+08 2.680170854685871E+08 2.680172194688158E+08 2.680172214688156E+08 2.680172394688138E+08 2.680172414685694E+08 2.680173114688066E+08 2.680173134688064E+08 2.680183430000000E+08 2.680224074679665E+08 2.680224154679658E+08 2.680224274679646E+08 2.680224434679631E+08 2.680224634679613E+08 2.680224874682031E+08 2.680224954679582E+08 2.680225034679575E+08 2.680225114679567E+08 2.680225154682004E+08 2.680225194682001E+08 2.680225274679551E+08 2.680225314679548E+08 2.680225354679544E+08 2.680225394679540E+08 2.680225514679528E+08 2.680225594679520E+08 2.680225674684395E+08 2.680225714681950E+08 2.680226074679474E+08 2.680226114679470E+08 2.680226154679466E+08 2.680226194679462E+08 2.680226474679434E+08 2.680226514679430E+08 2.680226554679426E+08 2.680226594679422E+08 2.680227354679346E+08 2.680227394679343E+08 2.680227794679303E+08 2.680227874679295E+08 2.680227914679291E+08 2.680227994681724E+08 2.680228114679271E+08 2.680228154679267E+08 2.680228434681679E+08 2.680228474679233E+08 2.680228514681671E+08 2.680228554679225E+08 2.680228594681662E+08 2.680228674679213E+08 2.680228914679188E+08 2.680228954679183E+08 2.680229074679171E+08 2.680229114679167E+08 2.680229514679125E+08 2.680229554679121E+08 2.680230614681453E+08 2.680230634679010E+08 2.680238454675741E+08 2.680238534675733E+08 2.680240950000000E+08 2.680286934671453E+08 2.680287014669001E+08 2.680287894668894E+08 2.680287974668884E+08 2.680288214668855E+08 2.680288454671268E+08 2.680288534668817E+08 2.680298470000000E+08 2.680340294661705E+08 2.680340374661696E+08 2.680340454661687E+08 2.680340534661677E+08 2.680340694661659E+08 2.680340934664072E+08 2.680341094661612E+08 2.680341334661584E+08 2.680341414666457E+08 2.680341894661517E+08 2.680341974661508E+08 2.680342534663882E+08 2.680342774661412E+08 2.680342934663834E+08 2.680343974663710E+08 2.680344134663691E+08 2.680344214663681E+08 2.680344294661230E+08 2.680344454661211E+08 2.680344614663633E+08 2.680344694663624E+08 2.680344934661154E+08 2.680345014661144E+08 2.680355990000000E+08 2.680378750000000E+08 2.680380020000000E+08 2.680395450000000E+08 2.680413510000000E+08 2.680436280000000E+08 2.680441930000000E+08 2.680450020000000E+08 2.680471030000000E+08 2.680493800000000E+08 2.680528550000000E+08 2.680551330000000E+08 2.680569040000000E+08 2.680575335867595E+08 2.680586070000000E+08 2.680609060000000E+08 2.680628030000000E+08 2.680636150000000E+08 2.680643600000000E+08 2.680667600000000E+08 2.680687210000000E+08 2.680696030000000E+08 2.680701120000000E+08 2.680725710000000E+08 2.680746590000000E+08 2.680755670000000E+08 2.680758640000000E+08 2.680783240000000E+08 2.680807100000000E+08 2.680814010000000E+08 2.680816160000000E+08 2.680840030000000E+08 2.680873680000000E+08 2.680898054585983E+08 2.680898134585970E+08 2.680898454588359E+08 2.680898534588346E+08 2.680898614588333E+08 2.680898774585865E+08 2.680898934585839E+08 2.680908134586922E+08 2.680908294584460E+08 2.680931200000000E+08 2.680962774579558E+08 2.680964054576944E+08 2.680964134579375E+08 2.680965254579232E+08 2.680965734579172E+08 2.680965814579163E+08 2.680965894579153E+08 2.680966054576693E+08 2.680966134576683E+08 2.680966214576673E+08 2.680966454576645E+08 2.680966614579067E+08 2.680966694579058E+08 2.680966774581490E+08 2.680967254576552E+08 2.680967734578939E+08 2.680967814576488E+08 2.680967894578921E+08 2.680968134576452E+08 2.680968294578876E+08 2.680968374576426E+08 2.680968534578849E+08 2.680968614576399E+08 2.680988720000000E+08 2.681020454571820E+08 2.681020534571809E+08 2.681020614571799E+08 2.681020774571778E+08 2.681021734569211E+08 2.681021814571642E+08 2.681022134569161E+08 2.681022214569151E+08 2.681022374571572E+08 2.681022614571542E+08 2.681022694569091E+08 2.681022774571523E+08 2.681027334571006E+08 2.681027414568556E+08 2.681027654568529E+08 2.681046250000000E+08 2.681085254560790E+08 2.681085334563223E+08 2.681085574560754E+08 2.681085894563159E+08 2.681085974563150E+08 2.681086454560653E+08 2.681086534560643E+08 2.681103770000000E+08 2.681148374552329E+08 2.681148454554759E+08 2.681149814552134E+08 2.681149894554565E+08 2.681150054552102E+08 2.681150374552058E+08 2.681150454552048E+08 2.681150774552004E+08 2.681150854551994E+08 2.681161290000000E+08 2.681199360000000E+08 2.681199414545317E+08 2.681199494545308E+08 2.681199574547741E+08 2.681199734545282E+08 2.681200134545238E+08 2.681200214547670E+08 2.681218810000000E+08 2.681241640000000E+08 2.681243210000000E+08 2.681257530000000E+08 2.681276330000000E+08 2.681299160000000E+08 2.681333860000000E+08 2.681356690000000E+08 2.681391380000000E+08 2.681414210000000E+08 2.681431480000000E+08 2.681438460000000E+08 2.681448900000000E+08 2.681471735746258E+08 2.681490540000000E+08 2.681498930000000E+08 2.681506420000000E+08 2.681529790000000E+08 2.681549730000000E+08 2.681558690000000E+08 2.681563940000000E+08 2.681587850000000E+08 2.681609350000000E+08 2.681618190000000E+08 2.681621470000000E+08 2.681645410000000E+08 2.681670410000000E+08 2.681674500000000E+08 2.681678990000000E+08 2.681701840000000E+08 2.681736510000000E+08 2.681760534471810E+08 2.681760614471797E+08 2.681760854469317E+08 2.681760934469303E+08 2.681761014469290E+08 2.681761094474160E+08 2.681761174471706E+08 2.681771574470171E+08 2.681771654470161E+08 2.681773334469964E+08 2.681773414469955E+08 2.681794030000000E+08 2.681823114462788E+08 2.681823154462781E+08 2.681823234462768E+08 2.681823274462762E+08 2.681823474465171E+08 2.681823554465158E+08 2.681823594462710E+08 2.681823634462704E+08 2.681823674462698E+08 2.681823714462691E+08 2.681823874462665E+08 2.681823914462659E+08 2.681824034462640E+08 2.681824234462608E+08 2.681824274462602E+08 2.681824354462590E+08 2.681824394462583E+08 2.681824634462546E+08 2.681824674462540E+08 2.681826714464676E+08 2.681826754462229E+08 2.681828354462006E+08 2.681828514461984E+08 2.681828914461931E+08 2.681828954461926E+08 2.681829114461905E+08 2.681829154461899E+08 2.681829354464315E+08 2.681829754461822E+08 2.681829954461797E+08 2.681829994461792E+08 2.681830114461777E+08 2.681830154461772E+08 2.681851554456502E+08 2.681882834456496E+08 2.681883554453949E+08 2.681883674453931E+08 2.681883714453926E+08 2.681883834453909E+08 2.681883874458786E+08 2.681884034456322E+08 2.681885914456064E+08 2.681885994453612E+08 2.681886034453607E+08 2.681886274453576E+08 2.681886354453565E+08 2.681886594455976E+08 2.681886634453529E+08 2.681886834453503E+08 2.681886994453483E+08 2.681887034453478E+08 2.681887114453468E+08 2.681887154453463E+08 2.681887194453458E+08 2.681887234453453E+08 2.681887314455884E+08 2.681887354453438E+08 2.681887674453398E+08 2.681887714453393E+08 2.681887754453388E+08 2.681887794453382E+08 2.681887874453373E+08 2.681887914453368E+08 2.681888114453343E+08 2.681888154453338E+08 2.681888634455720E+08 2.681888754453264E+08 2.681889194453210E+08 2.681889234453205E+08 2.681889394453186E+08 2.681889554458049E+08 2.681889794453137E+08 2.681889834453132E+08 2.681907092088977E+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: ae703029010hxd_1_wel_uf.evt[ DET_TYPE=0:0 ]
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Total Good Bad: Region Time Phase Grade Cut
2341826 1493359 0 848467 0 0 0
Writing events file
1493359 events written to the output file
Doing file: ae703029010hxd_2_wel_uf.evt[ DET_TYPE=0:0 ]
10% completed
20% completed
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100% completed
Total Good Bad: Region Time Phase Grade Cut
2195702 1574951 0 620751 0 0 0
Writing events file
3068310 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
4537528 3068310 0 1469218 0 0 0
in 78550. 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
-> ae703029010hxd_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
-> ae703029010hxd_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 x45 x
2.680098934695378E+08 2.680098974695372E+08 2.680099414695302E+08 2.680099454697737E+08 2.680099614695271E+08 2.680099734695252E+08 2.680099774695246E+08 2.680099854697674E+08 2.680100054695202E+08 2.680100294695165E+08 2.680100334695159E+08 2.680100374697594E+08 2.680100414695146E+08 2.680100614697557E+08 2.680100654695110E+08 2.680100694695104E+08 2.680100814695085E+08 2.680100854699962E+08 2.680100894695073E+08 2.680100934695067E+08 2.680100974695061E+08 2.680101574694972E+08 2.680101614694966E+08 2.680101734694949E+08 2.680101774694943E+08 2.680102094694897E+08 2.680102974694772E+08 2.680103014694767E+08 2.680103174697186E+08 2.680103254697175E+08 2.680103294694729E+08 2.680103334694723E+08 2.680103814694658E+08 2.680103854697094E+08 2.680104974696949E+08 2.680105054696938E+08 2.680105134696928E+08 2.680105174694482E+08 2.680105254694472E+08 2.680105294694467E+08 2.680105334694462E+08 2.680105374696898E+08 2.680105574694432E+08 2.680105614694427E+08 2.680105734694413E+08 2.680105774696849E+08 2.680105814694403E+08 2.680105854694398E+08 2.680105894694393E+08 2.680106094696810E+08 2.680106134694364E+08 2.680106254694350E+08 2.680106294694345E+08 2.680106454694326E+08 2.680106494694321E+08 2.680106574694312E+08 2.680106774694288E+08 2.680106894694274E+08 2.680106974694264E+08 2.680107294694227E+08 2.680107334696664E+08 2.680108214694120E+08 2.680108234694118E+08 2.680125910000000E+08 2.680163374686703E+08 2.680163414686699E+08 2.680166294686387E+08 2.680166334686382E+08 2.680166454686370E+08 2.680166494688807E+08 2.680166534688802E+08 2.680166574688798E+08 2.680166654686348E+08 2.680166734686339E+08 2.680166814688772E+08 2.680166974686313E+08 2.680167014686309E+08 2.680167134686295E+08 2.680167174686291E+08 2.680167454686260E+08 2.680167494686255E+08 2.680167614686242E+08 2.680167654686238E+08 2.680168494686143E+08 2.680168534686139E+08 2.680169214686061E+08 2.680169234686059E+08 2.680169494688470E+08 2.680169514686027E+08 2.680169594686017E+08 2.680169614686015E+08 2.680169634686013E+08 2.680169674688450E+08 2.680169874685985E+08 2.680169914685981E+08 2.680170054685965E+08 2.680170074685962E+08 2.680170094688401E+08 2.680170114685957E+08 2.680170154688394E+08 2.680170174685951E+08 2.680170194688390E+08 2.680170214688388E+08 2.680170314685934E+08 2.680170374685927E+08 2.680170474685916E+08 2.680170494685913E+08 2.680170534688350E+08 2.680170554685906E+08 2.680170694685890E+08 2.680170714685887E+08 2.680170794688320E+08 2.680170854685871E+08 2.680172194688158E+08 2.680172214688156E+08 2.680172394688138E+08 2.680172414685694E+08 2.680173114688066E+08 2.680173134688064E+08 2.680183430000000E+08 2.680224074679665E+08 2.680224154679658E+08 2.680224274679646E+08 2.680224434679631E+08 2.680224634679613E+08 2.680224874682031E+08 2.680224954679582E+08 2.680225034679575E+08 2.680225114679567E+08 2.680225154682004E+08 2.680225194682001E+08 2.680225274679551E+08 2.680225314679548E+08 2.680225354679544E+08 2.680225394679540E+08 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2.680340294661705E+08 2.680340374661696E+08 2.680340454661687E+08 2.680340534661677E+08 2.680340694661659E+08 2.680340934664072E+08 2.680341094661612E+08 2.680341334661584E+08 2.680341414666457E+08 2.680341894661517E+08 2.680341974661508E+08 2.680342534663882E+08 2.680342774661412E+08 2.680342934663834E+08 2.680343974663710E+08 2.680344134663691E+08 2.680344214663681E+08 2.680344294661230E+08 2.680344454661211E+08 2.680344614663633E+08 2.680344694663624E+08 2.680344934661154E+08 2.680345014661144E+08 2.680355990000000E+08 2.680378750000000E+08 2.680380020000000E+08 2.680395450000000E+08 2.680413510000000E+08 2.680436280000000E+08 2.680441930000000E+08 2.680450020000000E+08 2.680471030000000E+08 2.680493800000000E+08 2.680528550000000E+08 2.680551330000000E+08 2.680569040000000E+08 2.680575335867595E+08 2.680586070000000E+08 2.680609060000000E+08 2.680628030000000E+08 2.680636150000000E+08 2.680643600000000E+08 2.680667600000000E+08 2.680687210000000E+08 2.680696030000000E+08 2.680701120000000E+08 2.680725710000000E+08 2.680746590000000E+08 2.680755670000000E+08 2.680758640000000E+08 2.680783240000000E+08 2.680807100000000E+08 2.680814010000000E+08 2.680816160000000E+08 2.680840030000000E+08 2.680873680000000E+08 2.680898054585983E+08 2.680898134585970E+08 2.680898454588359E+08 2.680898534588346E+08 2.680898614588333E+08 2.680898774585865E+08 2.680898934585839E+08 2.680908134586922E+08 2.680908294584460E+08 2.680931200000000E+08 2.680962774579558E+08 2.680964054576944E+08 2.680964134579375E+08 2.680965254579232E+08 2.680965734579172E+08 2.680965814579163E+08 2.680965894579153E+08 2.680966054576693E+08 2.680966134576683E+08 2.680966214576673E+08 2.680966454576645E+08 2.680966614579067E+08 2.680966694579058E+08 2.680966774581490E+08 2.680967254576552E+08 2.680967734578939E+08 2.680967814576488E+08 2.680967894578921E+08 2.680968134576452E+08 2.680968294578876E+08 2.680968374576426E+08 2.680968534578849E+08 2.680968614576399E+08 2.680988720000000E+08 2.681020454571820E+08 2.681020534571809E+08 2.681020614571799E+08 2.681020774571778E+08 2.681021734569211E+08 2.681021814571642E+08 2.681022134569161E+08 2.681022214569151E+08 2.681022374571572E+08 2.681022614571542E+08 2.681022694569091E+08 2.681022774571523E+08 2.681027334571006E+08 2.681027414568556E+08 2.681027654568529E+08 2.681046250000000E+08 2.681085254560790E+08 2.681085334563223E+08 2.681085574560754E+08 2.681085894563159E+08 2.681085974563150E+08 2.681086454560653E+08 2.681086534560643E+08 2.681103770000000E+08 2.681148374552329E+08 2.681148454554759E+08 2.681149814552134E+08 2.681149894554565E+08 2.681150054552102E+08 2.681150374552058E+08 2.681150454552048E+08 2.681150774552004E+08 2.681150854551994E+08 2.681161290000000E+08 2.681199360000000E+08 2.681199414545317E+08 2.681199494545308E+08 2.681199574547741E+08 2.681199734545282E+08 2.681200134545238E+08 2.681200214547670E+08 2.681218810000000E+08 2.681241640000000E+08 2.681243210000000E+08 2.681257530000000E+08 2.681276330000000E+08 2.681299160000000E+08 2.681333860000000E+08 2.681356690000000E+08 2.681391380000000E+08 2.681414210000000E+08 2.681431480000000E+08 2.681438460000000E+08 2.681448900000000E+08 2.681471735746258E+08 2.681490540000000E+08 2.681498930000000E+08 2.681506420000000E+08 2.681529790000000E+08 2.681549730000000E+08 2.681558690000000E+08 2.681563940000000E+08 2.681587850000000E+08 2.681609350000000E+08 2.681618190000000E+08 2.681621470000000E+08 2.681645410000000E+08 2.681670410000000E+08 2.681674500000000E+08 2.681678990000000E+08 2.681701840000000E+08 2.681736510000000E+08 2.681760534471810E+08 2.681760614471797E+08 2.681760854469317E+08 2.681760934469303E+08 2.681761014469290E+08 2.681761094474160E+08 2.681761174471706E+08 2.681771574470171E+08 2.681771654470161E+08 2.681773334469964E+08 2.681773414469955E+08 2.681794030000000E+08 2.681823114462788E+08 2.681823154462781E+08 2.681823234462768E+08 2.681823274462762E+08 2.681823474465171E+08 2.681823554465158E+08 2.681823594462710E+08 2.681823634462704E+08 2.681823674462698E+08 2.681823714462691E+08 2.681823874462665E+08 2.681823914462659E+08 2.681824034462640E+08 2.681824234462608E+08 2.681824274462602E+08 2.681824354462590E+08 2.681824394462583E+08 2.681824634462546E+08 2.681824674462540E+08 2.681826714464676E+08 2.681826754462229E+08 2.681828354462006E+08 2.681828514461984E+08 2.681828914461931E+08 2.681828954461926E+08 2.681829114461905E+08 2.681829154461899E+08 2.681829354464315E+08 2.681829754461822E+08 2.681829954461797E+08 2.681829994461792E+08 2.681830114461777E+08 2.681830154461772E+08 2.681851554456502E+08 2.681882834456496E+08 2.681883554453949E+08 2.681883674453931E+08 2.681883714453926E+08 2.681883834453909E+08 2.681883874458786E+08 2.681884034456322E+08 2.681885914456064E+08 2.681885994453612E+08 2.681886034453607E+08 2.681886274453576E+08 2.681886354453565E+08 2.681886594455976E+08 2.681886634453529E+08 2.681886834453503E+08 2.681886994453483E+08 2.681887034453478E+08 2.681887114453468E+08 2.681887154453463E+08 2.681887194453458E+08 2.681887234453453E+08 2.681887314455884E+08 2.681887354453438E+08 2.681887674453398E+08 2.681887714453393E+08 2.681887754453388E+08 2.681887794453382E+08 2.681887874453373E+08 2.681887914453368E+08 2.681888114453343E+08 2.681888154453338E+08 2.681888634455720E+08 2.681888754453264E+08 2.681889194453210E+08 2.681889234453205E+08 2.681889394453186E+08 2.681889554458049E+08 2.681889794453137E+08 2.681889834453132E+08 2.681907092088977E+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: ae703029010hxd_1_wel_uf.evt[ DET_TYPE=1:1 ]
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Total Good Bad: Region Time Phase Grade Cut
54066 28791 0 25275 0 0 0
Writing events file
28791 events written to the output file
Doing file: ae703029010hxd_2_wel_uf.evt[ DET_TYPE=1:1 ]
10% completed
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Total Good Bad: Region Time Phase Grade Cut
50374 30011 0 20363 0 0 0
Writing events file
58802 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
104440 58802 0 45638 0 0 0
in 78550. 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 x45 x
2.680098934695378E+08 2.680098974695372E+08 2.680099414695302E+08 2.680099454697737E+08 2.680099614695271E+08 2.680099734695252E+08 2.680099774695246E+08 2.680099854697674E+08 2.680100054695202E+08 2.680100294695165E+08 2.680100334695159E+08 2.680100374697594E+08 2.680100414695146E+08 2.680100614697557E+08 2.680100654695110E+08 2.680100694695104E+08 2.680100814695085E+08 2.680100854699962E+08 2.680100894695073E+08 2.680100934695067E+08 2.680100974695061E+08 2.680101574694972E+08 2.680101614694966E+08 2.680101734694949E+08 2.680101774694943E+08 2.680102094694897E+08 2.680102974694772E+08 2.680103014694767E+08 2.680103174697186E+08 2.680103254697175E+08 2.680103294694729E+08 2.680103334694723E+08 2.680103814694658E+08 2.680103854697094E+08 2.680104974696949E+08 2.680105054696938E+08 2.680105134696928E+08 2.680105174694482E+08 2.680105254694472E+08 2.680105294694467E+08 2.680105334694462E+08 2.680105374696898E+08 2.680105574694432E+08 2.680105614694427E+08 2.680105734694413E+08 2.680105774696849E+08 2.680105814694403E+08 2.680105854694398E+08 2.680105894694393E+08 2.680106094696810E+08 2.680106134694364E+08 2.680106254694350E+08 2.680106294694345E+08 2.680106454694326E+08 2.680106494694321E+08 2.680106574694312E+08 2.680106774694288E+08 2.680106894694274E+08 2.680106974694264E+08 2.680107294694227E+08 2.680107334696664E+08 2.680108214694120E+08 2.680108234694118E+08 2.680125910000000E+08 2.680163374686703E+08 2.680163414686699E+08 2.680166294686387E+08 2.680166334686382E+08 2.680166454686370E+08 2.680166494688807E+08 2.680166534688802E+08 2.680166574688798E+08 2.680166654686348E+08 2.680166734686339E+08 2.680166814688772E+08 2.680166974686313E+08 2.680167014686309E+08 2.680167134686295E+08 2.680167174686291E+08 2.680167454686260E+08 2.680167494686255E+08 2.680167614686242E+08 2.680167654686238E+08 2.680168494686143E+08 2.680168534686139E+08 2.680169214686061E+08 2.680169234686059E+08 2.680169494688470E+08 2.680169514686027E+08 2.680169594686017E+08 2.680169614686015E+08 2.680169634686013E+08 2.680169674688450E+08 2.680169874685985E+08 2.680169914685981E+08 2.680170054685965E+08 2.680170074685962E+08 2.680170094688401E+08 2.680170114685957E+08 2.680170154688394E+08 2.680170174685951E+08 2.680170194688390E+08 2.680170214688388E+08 2.680170314685934E+08 2.680170374685927E+08 2.680170474685916E+08 2.680170494685913E+08 2.680170534688350E+08 2.680170554685906E+08 2.680170694685890E+08 2.680170714685887E+08 2.680170794688320E+08 2.680170854685871E+08 2.680172194688158E+08 2.680172214688156E+08 2.680172394688138E+08 2.680172414685694E+08 2.680173114688066E+08 2.680173134688064E+08 2.680183430000000E+08 2.680224074679665E+08 2.680224154679658E+08 2.680224274679646E+08 2.680224434679631E+08 2.680224634679613E+08 2.680224874682031E+08 2.680224954679582E+08 2.680225034679575E+08 2.680225114679567E+08 2.680225154682004E+08 2.680225194682001E+08 2.680225274679551E+08 2.680225314679548E+08 2.680225354679544E+08 2.680225394679540E+08 2.680225514679528E+08 2.680225594679520E+08 2.680225674684395E+08 2.680225714681950E+08 2.680226074679474E+08 2.680226114679470E+08 2.680226154679466E+08 2.680226194679462E+08 2.680226474679434E+08 2.680226514679430E+08 2.680226554679426E+08 2.680226594679422E+08 2.680227354679346E+08 2.680227394679343E+08 2.680227794679303E+08 2.680227874679295E+08 2.680227914679291E+08 2.680227994681724E+08 2.680228114679271E+08 2.680228154679267E+08 2.680228434681679E+08 2.680228474679233E+08 2.680228514681671E+08 2.680228554679225E+08 2.680228594681662E+08 2.680228674679213E+08 2.680228914679188E+08 2.680228954679183E+08 2.680229074679171E+08 2.680229114679167E+08 2.680229514679125E+08 2.680229554679121E+08 2.680230614681453E+08 2.680230634679010E+08 2.680238454675741E+08 2.680238534675733E+08 2.680240950000000E+08 2.680286934671453E+08 2.680287014669001E+08 2.680287894668894E+08 2.680287974668884E+08 2.680288214668855E+08 2.680288454671268E+08 2.680288534668817E+08 2.680298470000000E+08 2.680340294661705E+08 2.680340374661696E+08 2.680340454661687E+08 2.680340534661677E+08 2.680340694661659E+08 2.680340934664072E+08 2.680341094661612E+08 2.680341334661584E+08 2.680341414666457E+08 2.680341894661517E+08 2.680341974661508E+08 2.680342534663882E+08 2.680342774661412E+08 2.680342934663834E+08 2.680343974663710E+08 2.680344134663691E+08 2.680344214663681E+08 2.680344294661230E+08 2.680344454661211E+08 2.680344614663633E+08 2.680344694663624E+08 2.680344934661154E+08 2.680345014661144E+08 2.680355990000000E+08 2.680378750000000E+08 2.680380020000000E+08 2.680395450000000E+08 2.680413510000000E+08 2.680436280000000E+08 2.680441930000000E+08 2.680450020000000E+08 2.680471030000000E+08 2.680493800000000E+08 2.680528550000000E+08 2.680551330000000E+08 2.680569040000000E+08 2.680575335867595E+08 2.680586070000000E+08 2.680609060000000E+08 2.680628030000000E+08 2.680636150000000E+08 2.680643600000000E+08 2.680667600000000E+08 2.680687210000000E+08 2.680696030000000E+08 2.680701120000000E+08 2.680725710000000E+08 2.680746590000000E+08 2.680755670000000E+08 2.680758640000000E+08 2.680783240000000E+08 2.680807100000000E+08 2.680814010000000E+08 2.680816160000000E+08 2.680840030000000E+08 2.680873680000000E+08 2.680898054585983E+08 2.680898134585970E+08 2.680898454588359E+08 2.680898534588346E+08 2.680898614588333E+08 2.680898774585865E+08 2.680898934585839E+08 2.680908134586922E+08 2.680908294584460E+08 2.680931200000000E+08 2.680962774579558E+08 2.680964054576944E+08 2.680964134579375E+08 2.680965254579232E+08 2.680965734579172E+08 2.680965814579163E+08 2.680965894579153E+08 2.680966054576693E+08 2.680966134576683E+08 2.680966214576673E+08 2.680966454576645E+08 2.680966614579067E+08 2.680966694579058E+08 2.680966774581490E+08 2.680967254576552E+08 2.680967734578939E+08 2.680967814576488E+08 2.680967894578921E+08 2.680968134576452E+08 2.680968294578876E+08 2.680968374576426E+08 2.680968534578849E+08 2.680968614576399E+08 2.680988720000000E+08 2.681020454571820E+08 2.681020534571809E+08 2.681020614571799E+08 2.681020774571778E+08 2.681021734569211E+08 2.681021814571642E+08 2.681022134569161E+08 2.681022214569151E+08 2.681022374571572E+08 2.681022614571542E+08 2.681022694569091E+08 2.681022774571523E+08 2.681027334571006E+08 2.681027414568556E+08 2.681027654568529E+08 2.681046250000000E+08 2.681085254560790E+08 2.681085334563223E+08 2.681085574560754E+08 2.681085894563159E+08 2.681085974563150E+08 2.681086454560653E+08 2.681086534560643E+08 2.681103770000000E+08 2.681148374552329E+08 2.681148454554759E+08 2.681149814552134E+08 2.681149894554565E+08 2.681150054552102E+08 2.681150374552058E+08 2.681150454552048E+08 2.681150774552004E+08 2.681150854551994E+08 2.681161290000000E+08 2.681199360000000E+08 2.681199414545317E+08 2.681199494545308E+08 2.681199574547741E+08 2.681199734545282E+08 2.681200134545238E+08 2.681200214547670E+08 2.681218810000000E+08 2.681241640000000E+08 2.681243210000000E+08 2.681257530000000E+08 2.681276330000000E+08 2.681299160000000E+08 2.681333860000000E+08 2.681356690000000E+08 2.681391380000000E+08 2.681414210000000E+08 2.681431480000000E+08 2.681438460000000E+08 2.681448900000000E+08 2.681471735746258E+08 2.681490540000000E+08 2.681498930000000E+08 2.681506420000000E+08 2.681529790000000E+08 2.681549730000000E+08 2.681558690000000E+08 2.681563940000000E+08 2.681587850000000E+08 2.681609350000000E+08 2.681618190000000E+08 2.681621470000000E+08 2.681645410000000E+08 2.681670410000000E+08 2.681674500000000E+08 2.681678990000000E+08 2.681701840000000E+08 2.681736510000000E+08 2.681760534471810E+08 2.681760614471797E+08 2.681760854469317E+08 2.681760934469303E+08 2.681761014469290E+08 2.681761094474160E+08 2.681761174471706E+08 2.681771574470171E+08 2.681771654470161E+08 2.681773334469964E+08 2.681773414469955E+08 2.681794030000000E+08 2.681823114462788E+08 2.681823154462781E+08 2.681823234462768E+08 2.681823274462762E+08 2.681823474465171E+08 2.681823554465158E+08 2.681823594462710E+08 2.681823634462704E+08 2.681823674462698E+08 2.681823714462691E+08 2.681823874462665E+08 2.681823914462659E+08 2.681824034462640E+08 2.681824234462608E+08 2.681824274462602E+08 2.681824354462590E+08 2.681824394462583E+08 2.681824634462546E+08 2.681824674462540E+08 2.681826714464676E+08 2.681826754462229E+08 2.681828354462006E+08 2.681828514461984E+08 2.681828914461931E+08 2.681828954461926E+08 2.681829114461905E+08 2.681829154461899E+08 2.681829354464315E+08 2.681829754461822E+08 2.681829954461797E+08 2.681829994461792E+08 2.681830114461777E+08 2.681830154461772E+08 2.681851554456502E+08 2.681882834456496E+08 2.681883554453949E+08 2.681883674453931E+08 2.681883714453926E+08 2.681883834453909E+08 2.681883874458786E+08 2.681884034456322E+08 2.681885914456064E+08 2.681885994453612E+08 2.681886034453607E+08 2.681886274453576E+08 2.681886354453565E+08 2.681886594455976E+08 2.681886634453529E+08 2.681886834453503E+08 2.681886994453483E+08 2.681887034453478E+08 2.681887114453468E+08 2.681887154453463E+08 2.681887194453458E+08 2.681887234453453E+08 2.681887314455884E+08 2.681887354453438E+08 2.681887674453398E+08 2.681887714453393E+08 2.681887754453388E+08 2.681887794453382E+08 2.681887874453373E+08 2.681887914453368E+08 2.681888114453343E+08 2.681888154453338E+08 2.681888634455720E+08 2.681888754453264E+08 2.681889194453210E+08 2.681889234453205E+08 2.681889394453186E+08 2.681889554458049E+08 2.681889794453137E+08 2.681889834453132E+08 2.681907092088977E+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: ae703029010hxd_1_wel_uf.evt[ DET_TYPE=2:2 ]
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Total Good Bad: Region Time Phase Grade Cut
359080 142378 0 216702 0 0 0
Writing events file
142378 events written to the output file
Doing file: ae703029010hxd_2_wel_uf.evt[ DET_TYPE=2:2 ]
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Total Good Bad: Region Time Phase Grade Cut
328553 149875 0 178678 0 0 0
Writing events file
292253 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
687633 292253 0 395380 0 0 0
in 78550. 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 x39 x
2.679740170000000E+08 2.679740540000000E+08 2.679776730000000E+08 2.679798070000000E+08 2.679834260000000E+08 2.679855600000000E+08 2.679891790000000E+08 2.679913120000000E+08 2.679949320000000E+08 2.679970650000000E+08 2.680006850000000E+08 2.680028180000000E+08 2.680064430000000E+08 2.680067870000000E+08 2.680068900000000E+08 2.680090290000000E+08 2.680126740000000E+08 2.680147820000000E+08 2.680184260000000E+08 2.680205350000000E+08 2.680241780000000E+08 2.680262870000000E+08 2.680299300000000E+08 2.680320400000000E+08 2.680356820000000E+08 2.680377920000000E+08 2.680414340000000E+08 2.680435450000000E+08 2.680471860000000E+08 2.680492980000000E+08 2.680529380000000E+08 2.680550500000000E+08 2.680586900000000E+08 2.680608030000000E+08 2.680644420000000E+08 2.680665560000000E+08 2.680701940000000E+08 2.680723080000000E+08 2.680759460000000E+08 2.680780610000000E+08 2.680816980000000E+08 2.680838130000000E+08 2.680874510000000E+08 2.680895660000000E+08 2.680932030000000E+08 2.680953190000000E+08 2.680989550000000E+08 2.681010710000000E+08 2.681047070000000E+08 2.681068240000000E+08 2.681104590000000E+08 2.681125770000000E+08 2.681162110000000E+08 2.681183290000000E+08 2.681219630000000E+08 2.681240820000000E+08 2.681277150000000E+08 2.681298340000000E+08 2.681334680000000E+08 2.681355870000000E+08 2.681392200000000E+08 2.681413390000000E+08 2.681449720000000E+08 2.681470920000000E+08 2.681507240000000E+08 2.681528450000000E+08 2.681564760000000E+08 2.681585970000000E+08 2.681622280000000E+08 2.681643495725493E+08 2.681679810000000E+08 2.681701030000000E+08 2.681737330000000E+08 2.681758550000000E+08 2.681794850000000E+08 2.681816080000000E+08 2.681852370000000E+08 2.681873600000000E+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: ae703029010hxd_1_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
10258752 1880782 0 8377970 0 0 0
Writing events file
1880782 events written to the output file
Doing file: ae703029010hxd_2_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
8949116 1365135 0 7583981 0 0 0
Writing events file
3245917 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
19207868 3245917 0 15961951 0 0 0
in 67653. 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: ae703029010hxd_0_pinno_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
58802 58802 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
58802 58802 0 0 0 0 0
in 78550. seconds
Spectrum has 58802 counts for 0.7486 counts/sec
... written the PHA data Extension
-> Grouping ae703029010hxd_0_pinno_sr.pi.infile,s,h,"ae703029010hxd_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 - 78550. Integration time (in secs) of PHA data AREASCAL - 1.0000 Area scaling factor BACKSCAL - 1.0000 Background scaling factor BACKFILE - none Associated background file CORRSCAL - 1.0000 Correlation scaling factor CORRFILE - none Associated correlation file RESPFILE - none Associated redistribution matrix file ANCRFILE - none Associated ancillary response file POISSERR - TRUE Whether Poissonian errors apply CHANTYPE - PI_PIN Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 256 No. of legal detector channels NCHAN - 256 No. of detector channels in dataset PHAVERSN - 1.2.0 OGIP FITS version number STAT_ERR - FALSE Statistical Error SYS_ERR - FALSE Fractional Systematic Error QUALITY - TRUE Quality Flag GROUPING - FALSE Grouping Flag -------------------------------------------------------------------- -------------------------------------------------------------------- WARNING - chk_com 1.3.0: string length exceeds 68 characters ! WARNING - chk_com 1.3.0: using fitsio continuation convention ... ... -------- ... GROUPING ... -------- ... --------------------------------------------- ... Channel Grouping (Channel-Channel) : ... 0 - 27 are grouped by a factor 28 ... 28 - 200 are single channels ... 201 - 202 are grouped by a factor 2 ... 203 - 204 are single channels ... 205 - 236 are grouped by a factor 32 ... 237 - 255 are single channels ... --------------------------------------------- ... QUALITY ... ... ------- ... QUALITY ... ------- ... Bad Channels (Channel - Channel) ... --------------------------------------------- ... 237 - 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 ae703029010hxd_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,"ae703029010hxd_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 = ae703029010hxd_1_wel_uf.evt hxddtcor: event No.2 = ae703029010hxd_2_wel_uf.evt hxddtcor: spec = ae703029010hxd_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 ae703029010hxd_0_pinno_sr.pi ========================== hxddtcor: current exposure = 78550.41 hxddtcor: make pseudo list ae703029010hxd_1_wel_uf.evt (35594.50 sec) hxddtcor: make pseudo list ae703029010hxd_2_wel_uf.evt (37468.75 sec) EXPOSURE 73063.250000 / 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]= ae703029010hxd_1_wel_uf.evt hxddtcor: event file[1]= ae703029010hxd_2_wel_uf.evt hxddtcor: save pseudo = no hxddtcor: EXPOSURE changed from 78550.41 to 35594.50+37468.75= 73063.25 hxddtcor: Live time is 93.0 %. Checksum keywords updated successfully. hxddtcor: process done.-> hxddtcor successful for ae703029010hxd_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 ae703029010hxd_0_pinno_sr.pi;
Warning: RMF CHANTYPE keyword is not consistent with spectrum
1 spectrum in use
Spectral Data File: ae703029010hxd_0_pinno_sr.pi Spectrum 1
Net count rate (cts/s) for Spectrum:1 8.048e-01 +/- 3.319e-03
Assigned to Data Group 1 and Plot Group 1
Noticed Channels: 1-197
Telescope: SUZAKU Instrument: HXD Channel Type: PI
Exposure Time: 7.306e+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: 19 channels ignored from source number 1
!XSPEC12>ignore *:**-10.0 600.0-**;
1 channels (1) ignored in spectrum # 1
No channels ignored (no channels in specified range)
!XSPEC12>setplot splashpage off;
!XSPEC12>setplot energy;
!XSPEC12>setplot device ae703029010hxd_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 MRK 348 (Sequence 703029010);
!XSPEC12>setplot com label file Exposure time: 73.1ks;
!XSPEC12>setplot com time off;
!XSPEC12>plot;
!XSPEC12>exit;
XSPEC: quit
!XSPEC12>tclexit
-> Created ae703029010hxd_0_wel_pi.gif.Input sky coordinates: 1.2196300000000E+01, 3.1956900000000E+01 Output pixel coordinates: 7.5326020124895E+02, 7.4535701531983E+02-> Contents of aecoordcalc.par
instrume,s,a,"XIS0",,,"any of XRS/HXD/XIS0-3 to specify instrument" coord,s,a,"SKY",,,"any of ECS/J2000/B1950/GAL/SKY/FOC/DET/OPTIC to specify input coordinates" output,s,a,"FULL",,,"any of FULL/XRS/HXD/XIS0-3 for message output" attitude,f,a,"KEY",,,"attitude file, or KEY/USER" pointing,s,a,"KEY",,,"pointing type, KEY/USER" infile,f,a,"ae703029010xi0_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,12.191107631588,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,58.036421227811,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,18.116400134728,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"12.1911",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"31.9636",,,"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,"268006975.000000",,,"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,12.1962999693021,,,"R.A. (J2000) in deg" deltaJ2000,r,a,31.9569009921482,,,"DEC. (J2000) in deg" alphaB1950,r,a,11.5201312854967,,,"R.A. (B1950) in deg" deltaB1950,r,a,31.6844797510862,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.000625094348325916,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00274693001343707,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,10.0715730271069,,,"angular difference in arcsec by aberration" l,r,a,122.276092752034,,,"Galactic longitude (deg)" b,r,a,-30.911469786812,,,"Galactic latitude (deg)" x,r,a,753.26,,,"X value of SKY coorindates (pixel)" y,r,a,745.36,,,"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,753.262116372723,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,745.363213442618,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,750.29635506216,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,780.480279224162,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,110.29635506216,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,140.480279224162,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.378575767511253,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-146.65007401278,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.260005291662,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,745.36000803476,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,750.293833099727,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,780.481938991437,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,951.790833099727,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,780.481938991437,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.19049643951807,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.74017133085012,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.259999999997,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,745.360000000041,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,750.293826778141,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,780.481943151833,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,490.793826778141,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,512.981943151833,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,533,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,512,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,21,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,512,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,23,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,512,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.65485173088743,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-170.647867258451,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.259999999997,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,745.360000000041,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,750.293826778141,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,780.481943151833,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,490.793826778141,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,517.981943151833,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,517,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,490,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,5,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,490,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,7,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,490,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.26563082058259,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-141.477116361141,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.259999999997,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,745.360000000041,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,750.293826778141,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,780.481943151833,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,493.793826778141,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,506.981943151833,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,517,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,530,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,5,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,530,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,7,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,530,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.252102101730628,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,9.99093990543498,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.259999999997,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,745.360000000041,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,750.293826778141,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,780.481943151833,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,482.793826778141,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,520.981943151833,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,541,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,520,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,29,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,520,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,31,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,520,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.495095576076369,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,60.1343049567882,,,"azimuth angle from XIS3 optical axis (deg)" mjdrefi,i,h,51544,,,"integer part of the MJD-TT reference (2000.0 UT)" mjdreff,r,h,0.00074287037037037,,,"fractional part of the MJD-TT reference (64.184 s)" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,no,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,1000,,,"Event number printout frequency" chatter,i,h,5,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aecoordcalc
aecoordcalc version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aecoordcalc version 1.6
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = NO
CHATTER = 5
aecoordcalc: *** show parameter ***
INSTRUME XIS0
COORD SKY
X 753.260 (pixel)
Y 745.360 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae703029010xi0_0_3x3n066a_cl.evt+1'
EA1 12.191107631588 (deg)
EA2 58.036421227811 (deg)
EA3 18.116400134728 (deg)
REF_ALPHA 12.1911 (deg) / 0h48m45.9s
REF_DELTA 31.9636 (deg) / +31d57m49s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268006975.000 / 2008-06-28T22:22:54 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 ( 12.1963 , 31.9569 ) [deg] / ( 0h48m47.1s , +31d57m25s )
B1950 ( 11.5201 , 31.6845 ) [deg] / ( 0h46m04.8s , +31d41m04s )
Galactic ( 122.2761 , -30.9115 ) [deg]
Aberration ( -2.2503 , -9.8889 ) [arcsec], Ang.Distance = 10.0716
XRS SKY ( 753.2621 , 745.3632 ) [pixel]
XRS FOC ( 750.2964 , 780.4803 ) [pixel]
XRS DET ( 110.2964 , 140.4803 ) [pixel]
XRS THETA/PHI 0.3786 [arcmin] / -146.6501 [deg]
XRS PIXEL = 8
HXD SKY ( 753.2600 , 745.3600 ) [pixel]
HXD FOC ( 750.2938 , 780.4819 ) [pixel]
HXD DET ( 951.7908 , 780.4819 ) [pixel]
HXD THETA/PHI 3.1905 [arcmin] / -3.7402 [deg]
XIS0 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS0 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS0 DET ( 490.7938 , 512.9819 ) [pixel]
XIS0 ACT ( 533 , 512 ) [pixel]
XIS0 RAW ( 21 , 512 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 23 , 512 ) [pixel]
XIS0 THETA/PHI 1.6549 [arcmin] / -170.6479 [deg]
XIS1 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS1 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS1 DET ( 490.7938 , 517.9819 ) [pixel]
XIS1 ACT ( 517 , 490 ) [pixel]
XIS1 RAW ( 5 , 490 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 7 , 490 ) [pixel]
XIS1 THETA/PHI 1.2656 [arcmin] / -141.4771 [deg]
XIS2 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS2 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS2 DET ( 493.7938 , 506.9819 ) [pixel]
XIS2 ACT ( 517 , 530 ) [pixel]
XIS2 RAW ( 5 , 530 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 7 , 530 ) [pixel]
XIS2 THETA/PHI 0.2521 [arcmin] / 9.9909 [deg]
XIS3 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS3 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS3 DET ( 482.7938 , 520.9819 ) [pixel]
XIS3 ACT ( 541 , 520 ) [pixel]
XIS3 RAW ( 29 , 520 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 31 , 520 ) [pixel]
XIS3 THETA/PHI 0.4951 [arcmin] / 60.1343 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae703029010xi0_0_3x3n066a_cl.evt_source.reg.tmp circle(753,745,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
83333 66300 17033 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
83333 66300 17033 0 0 0 0
in 74372. seconds
Spectrum has 66300 counts for 0.8915 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
83333 6319 77014 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
83333 6319 77014 0 0 0 0
in 74372. seconds
Spectrum has 6319 counts for 8.4965E-02 counts/sec
... written the PHA data Extension
-> Creating RMF for ae703029010xi0_0_3x3n066a_sr.piinfile,s,h,"ae703029010xi0_0_3x3n066a_sr.pi",,,"Please enter PHA filename" outfile,s,h,"grppha.out.tmp",,,"Please enter output filename" chatter,i,h,5,,,"Please enter Chatter flag" comm,s,h,"group min 25&bad 0-81 3290-4095&chkey RESPFILE /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi0_20060213.rmf&chkey ANCRFILE /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi0_xisnom6_20060615.arf&chkey BACKFILE ae703029010xi0_0_3x3n066a_bg.pi&show all&exit",,,"GRPPHA" tempc,s,h,,,,"GRPPHA" clobber,b,h,no,,,"Overwrite output file if it already exists ?" mode,s,h,"hl",,,"Mode"-> stdout output from grppha
------------------------- MANDATORY KEYWORDS/VALUES ------------------------- -------------------------------------------------------------------- -------------------------------------------------------------------- EXTNAME - SPECTRUM Name of this BINTABLE TELESCOP - SUZAKU Mission/Satellite name INSTRUME - XIS0 Instrument/Detector FILTER - NONE Instrument filter in use EXPOSURE - 74372. 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 - 112 are grouped by a factor 113 ... 113 - 128 are grouped by a factor 8 ... 129 - 142 are grouped by a factor 14 ... 143 - 149 are grouped by a factor 7 ... 150 - 165 are grouped by a factor 16 ... 166 - 180 are grouped by a factor 15 ... 181 - 190 are grouped by a factor 10 ... 191 - 201 are grouped by a factor 11 ... 202 - 210 are grouped by a factor 9 ... 211 - 224 are grouped by a factor 7 ... 225 - 229 are grouped by a factor 5 ... 230 - 237 are grouped by a factor 8 ... 238 - 242 are grouped by a factor 5 ... 243 - 248 are grouped by a factor 6 ... 249 - 253 are grouped by a factor 5 ... 254 - 274 are grouped by a factor 7 ... 275 - 278 are grouped by a factor 4 ... 279 - 285 are grouped by a factor 7 ... 286 - 290 are grouped by a factor 5 ... 291 - 297 are grouped by a factor 7 ... 298 - 315 are grouped by a factor 6 ... 316 - 325 are grouped by a factor 10 ... 326 - 337 are grouped by a factor 6 ... 338 - 344 are grouped by a factor 7 ... 345 - 349 are grouped by a factor 5 ... 350 - 355 are grouped by a factor 6 ... 356 - 360 are grouped by a factor 5 ... 361 - 364 are grouped by a factor 4 ... 365 - 370 are grouped by a factor 6 ... 371 - 377 are grouped by a factor 7 ... 378 - 382 are grouped by a factor 5 ... 383 - 389 are grouped by a factor 7 ... 390 - 395 are grouped by a factor 6 ... 396 - 399 are grouped by a factor 4 ... 400 - 405 are grouped by a factor 6 ... 406 - 415 are grouped by a factor 5 ... 416 - 418 are grouped by a factor 3 ... 419 - 422 are grouped by a factor 4 ... 423 - 437 are grouped by a factor 5 ... 438 - 441 are grouped by a factor 4 ... 442 - 446 are grouped by a factor 5 ... 447 - 449 are grouped by a factor 3 ... 450 - 453 are grouped by a factor 4 ... 454 - 456 are grouped by a factor 3 ... 457 - 460 are grouped by a factor 4 ... 461 - 463 are grouped by a factor 3 ... 464 - 467 are grouped by a factor 4 ... 468 - 479 are grouped by a factor 3 ... 480 - 483 are grouped by a factor 2 ... 484 - 486 are grouped by a factor 3 ... 487 - 490 are grouped by a factor 2 ... 491 - 496 are grouped by a factor 3 ... 497 - 498 are grouped by a factor 2 ... 499 - 516 are grouped by a factor 3 ... 517 - 536 are grouped by a factor 4 ... 537 - 554 are grouped by a factor 3 ... 555 - 568 are grouped by a factor 2 ... 569 - 571 are grouped by a factor 3 ... 572 - 573 are grouped by a factor 2 ... 574 - 576 are grouped by a factor 3 ... 577 - 612 are grouped by a factor 2 ... 613 - 615 are grouped by a factor 3 ... 616 - 641 are grouped by a factor 2 ... 642 - 644 are grouped by a factor 3 ... 645 - 646 are grouped by a factor 2 ... 647 - 649 are grouped by a factor 3 ... 650 - 683 are grouped by a factor 2 ... 684 - 684 are single channels ... 685 - 708 are grouped by a factor 2 ... 709 - 709 are single channels ... 710 - 717 are grouped by a factor 2 ... 718 - 718 are single channels ... 719 - 720 are grouped by a factor 2 ... 721 - 721 are single channels ... 722 - 733 are grouped by a factor 2 ... 734 - 735 are single channels ... 736 - 739 are grouped by a factor 2 ... 740 - 741 are single channels ... 742 - 745 are grouped by a factor 2 ... 746 - 750 are single channels ... 751 - 752 are grouped by a factor 2 ... 753 - 758 are single channels ... 759 - 760 are grouped by a factor 2 ... 761 - 764 are single channels ... 765 - 768 are grouped by a factor 2 ... 769 - 769 are single channels ... 770 - 771 are grouped by a factor 2 ... 772 - 774 are single channels ... 775 - 776 are grouped by a factor 2 ... 777 - 778 are single channels ... 779 - 780 are grouped by a factor 2 ... 781 - 781 are single channels ... 782 - 783 are grouped by a factor 2 ... 784 - 792 are single channels ... 793 - 796 are grouped by a factor 2 ... 797 - 811 are single channels ... 812 - 813 are grouped by a factor 2 ... 814 - 821 are single channels ... 822 - 823 are grouped by a factor 2 ... 824 - 836 are single channels ... 837 - 838 are grouped by a factor 2 ... 839 - 1567 are single channels ... 1568 - 1569 are grouped by a factor 2 ... 1570 - 1666 are single channels ... 1667 - 1668 are grouped by a factor 2 ... 1669 - 1784 are single channels ... 1785 - 1786 are grouped by a factor 2 ... 1787 - 1794 are single channels ... 1795 - 1796 are grouped by a factor 2 ... 1797 - 1798 are single channels ... 1799 - 1800 are grouped by a factor 2 ... 1801 - 1801 are single channels ... 1802 - 1803 are grouped by a factor 2 ... 1804 - 1804 are single channels ... 1805 - 1806 are grouped by a factor 2 ... 1807 - 1807 are single channels ... 1808 - 1809 are grouped by a factor 2 ... 1810 - 1818 are single channels ... 1819 - 1820 are grouped by a factor 2 ... 1821 - 1834 are single channels ... 1835 - 1836 are grouped by a factor 2 ... 1837 - 1848 are single channels ... 1849 - 1850 are grouped by a factor 2 ... 1851 - 1851 are single channels ... 1852 - 1855 are grouped by a factor 2 ... 1856 - 1862 are single channels ... 1863 - 1864 are grouped by a factor 2 ... 1865 - 1870 are single channels ... 1871 - 1872 are grouped by a factor 2 ... 1873 - 1874 are single channels ... 1875 - 1876 are grouped by a factor 2 ... 1877 - 1882 are single channels ... 1883 - 1884 are grouped by a factor 2 ... 1885 - 1887 are single channels ... 1888 - 1889 are grouped by a factor 2 ... 1890 - 1890 are single channels ... 1891 - 1892 are grouped by a factor 2 ... 1893 - 1898 are single channels ... 1899 - 1902 are grouped by a factor 2 ... 1903 - 1903 are single channels ... 1904 - 1905 are grouped by a factor 2 ... 1906 - 1906 are single channels ... 1907 - 1912 are grouped by a factor 2 ... 1913 - 1915 are single channels ... 1916 - 1917 are grouped by a factor 2 ... 1918 - 1920 are single channels ... 1921 - 1922 are grouped by a factor 2 ... 1923 - 1924 are single channels ... 1925 - 1932 are grouped by a factor 2 ... 1933 - 1933 are single channels ... 1934 - 1935 are grouped by a factor 2 ... 1936 - 1938 are single channels ... 1939 - 1940 are grouped by a factor 2 ... 1941 - 1941 are single channels ... 1942 - 1945 are grouped by a factor 2 ... 1946 - 1947 are single channels ... 1948 - 1949 are grouped by a factor 2 ... 1950 - 1950 are single channels ... 1951 - 1954 are grouped by a factor 2 ... 1955 - 1956 are single channels ... 1957 - 1964 are grouped by a factor 2 ... 1965 - 1965 are single channels ... 1966 - 1981 are grouped by a factor 2 ... 1982 - 1984 are grouped by a factor 3 ... 1985 - 1986 are grouped by a factor 2 ... 1987 - 1987 are single channels ... 1988 - 2007 are grouped by a factor 2 ... 2008 - 2010 are grouped by a factor 3 ... 2011 - 2114 are grouped by a factor 2 ... 2115 - 2115 are single channels ... 2116 - 2127 are grouped by a factor 2 ... 2128 - 2130 are grouped by a factor 3 ... 2131 - 2144 are grouped by a factor 2 ... 2145 - 2147 are grouped by a factor 3 ... 2148 - 2151 are grouped by a factor 2 ... 2152 - 2154 are grouped by a factor 3 ... 2155 - 2158 are grouped by a factor 2 ... 2159 - 2161 are grouped by a factor 3 ... 2162 - 2173 are grouped by a factor 2 ... 2174 - 2176 are grouped by a factor 3 ... 2177 - 2178 are grouped by a factor 2 ... 2179 - 2181 are grouped by a factor 3 ... 2182 - 2191 are grouped by a factor 2 ... 2192 - 2194 are grouped by a factor 3 ... 2195 - 2198 are grouped by a factor 2 ... 2199 - 2204 are grouped by a factor 3 ... 2205 - 2208 are grouped by a factor 2 ... 2209 - 2211 are grouped by a factor 3 ... 2212 - 2213 are grouped by a factor 2 ... 2214 - 2219 are grouped by a factor 3 ... 2220 - 2221 are grouped by a factor 2 ... 2222 - 2227 are grouped by a factor 3 ... 2228 - 2235 are grouped by a factor 2 ... 2236 - 2238 are grouped by a factor 3 ... 2239 - 2240 are grouped by a factor 2 ... 2241 - 2249 are grouped by a factor 3 ... 2250 - 2253 are grouped by a factor 2 ... 2254 - 2259 are grouped by a factor 3 ... 2260 - 2263 are grouped by a factor 4 ... 2264 - 2265 are grouped by a factor 2 ... 2266 - 2277 are grouped by a factor 3 ... 2278 - 2279 are grouped by a factor 2 ... 2280 - 2282 are grouped by a factor 3 ... 2283 - 2284 are grouped by a factor 2 ... 2285 - 2287 are grouped by a factor 3 ... 2288 - 2289 are grouped by a factor 2 ... 2290 - 2292 are grouped by a factor 3 ... 2293 - 2294 are grouped by a factor 2 ... 2295 - 2300 are grouped by a factor 3 ... 2301 - 2302 are grouped by a factor 2 ... 2303 - 2308 are grouped by a factor 3 ... 2309 - 2312 are grouped by a factor 4 ... 2313 - 2318 are grouped by a factor 3 ... 2319 - 2322 are grouped by a factor 4 ... 2323 - 2325 are grouped by a factor 3 ... 2326 - 2333 are grouped by a factor 4 ... 2334 - 2345 are grouped by a factor 3 ... 2346 - 2353 are grouped by a factor 4 ... 2354 - 2362 are grouped by a factor 3 ... 2363 - 2364 are grouped by a factor 2 ... 2365 - 2367 are grouped by a factor 3 ... 2368 - 2375 are grouped by a factor 4 ... 2376 - 2387 are grouped by a factor 3 ... 2388 - 2392 are grouped by a factor 5 ... 2393 - 2394 are grouped by a factor 2 ... 2395 - 2397 are grouped by a factor 3 ... 2398 - 2401 are grouped by a factor 4 ... 2402 - 2404 are grouped by a factor 3 ... 2405 - 2420 are grouped by a factor 4 ... 2421 - 2426 are grouped by a factor 3 ... 2427 - 2431 are grouped by a factor 5 ... 2432 - 2435 are grouped by a factor 4 ... 2436 - 2447 are grouped by a factor 3 ... 2448 - 2463 are grouped by a factor 4 ... 2464 - 2469 are grouped by a factor 3 ... 2470 - 2474 are grouped by a factor 5 ... 2475 - 2483 are grouped by a factor 3 ... 2484 - 2487 are grouped by a factor 4 ... 2488 - 2492 are grouped by a factor 5 ... 2493 - 2495 are grouped by a factor 3 ... 2496 - 2503 are grouped by a factor 4 ... 2504 - 2506 are grouped by a factor 3 ... 2507 - 2511 are grouped by a factor 5 ... 2512 - 2519 are grouped by a factor 4 ... 2520 - 2522 are grouped by a factor 3 ... 2523 - 2534 are grouped by a factor 4 ... 2535 - 2539 are grouped by a factor 5 ... 2540 - 2551 are grouped by a factor 4 ... 2552 - 2557 are grouped by a factor 6 ... 2558 - 2562 are grouped by a factor 5 ... 2563 - 2566 are grouped by a factor 4 ... 2567 - 2571 are grouped by a factor 5 ... 2572 - 2575 are grouped by a factor 4 ... 2576 - 2582 are grouped by a factor 7 ... 2583 - 2587 are grouped by a factor 5 ... 2588 - 2591 are grouped by a factor 4 ... 2592 - 2603 are grouped by a factor 6 ... 2604 - 2607 are grouped by a factor 4 ... 2608 - 2613 are grouped by a factor 6 ... 2614 - 2617 are grouped by a factor 4 ... 2618 - 2627 are grouped by a factor 5 ... 2628 - 2631 are grouped by a factor 4 ... 2632 - 2646 are grouped by a factor 5 ... 2647 - 2654 are grouped by a factor 4 ... 2655 - 2660 are grouped by a factor 6 ... 2661 - 2664 are grouped by a factor 4 ... 2665 - 2669 are grouped by a factor 5 ... 2670 - 2677 are grouped by a factor 4 ... 2678 - 2682 are grouped by a factor 5 ... 2683 - 2686 are grouped by a factor 4 ... 2687 - 2696 are grouped by a factor 5 ... 2697 - 2700 are grouped by a factor 4 ... 2701 - 2707 are grouped by a factor 7 ... 2708 - 2713 are grouped by a factor 6 ... 2714 - 2718 are grouped by a factor 5 ... 2719 - 2730 are grouped by a factor 6 ... 2731 - 2751 are grouped by a factor 7 ... 2752 - 2756 are grouped by a factor 5 ... 2757 - 2763 are grouped by a factor 7 ... 2764 - 2769 are grouped by a factor 6 ... 2770 - 2776 are grouped by a factor 7 ... 2777 - 2786 are grouped by a factor 10 ... 2787 - 2794 are grouped by a factor 8 ... 2795 - 2800 are grouped by a factor 6 ... 2801 - 2807 are grouped by a factor 7 ... 2808 - 2811 are grouped by a factor 4 ... 2812 - 2816 are grouped by a factor 5 ... 2817 - 2824 are grouped by a factor 8 ... 2825 - 2838 are grouped by a factor 7 ... 2839 - 2846 are grouped by a factor 8 ... 2847 - 2853 are grouped by a factor 7 ... 2854 - 2858 are grouped by a factor 5 ... 2859 - 2868 are grouped by a factor 10 ... 2869 - 2875 are grouped by a factor 7 ... 2876 - 2880 are grouped by a factor 5 ... 2881 - 2889 are grouped by a factor 9 ... 2890 - 2909 are grouped by a factor 10 ... 2910 - 2918 are grouped by a factor 9 ... 2919 - 2929 are grouped by a factor 11 ... 2930 - 2941 are grouped by a factor 12 ... 2942 - 2971 are grouped by a factor 10 ... 2972 - 2987 are grouped by a factor 16 ... 2988 - 3000 are grouped by a factor 13 ... 3001 - 3009 are grouped by a factor 9 ... 3010 - 3020 are grouped by a factor 11 ... 3021 - 3030 are grouped by a factor 10 ... 3031 - 3038 are grouped by a factor 8 ... 3039 - 3056 are grouped by a factor 9 ... 3057 - 3069 are grouped by a factor 13 ... 3070 - 3078 are grouped by a factor 9 ... 3079 - 3090 are grouped by a factor 12 ... 3091 - 3101 are grouped by a factor 11 ... 3102 - 3114 are grouped by a factor 13 ... 3115 - 3128 are grouped by a factor 14 ... 3129 - 3150 are grouped by a factor 11 ... 3151 - 3162 are grouped by a factor 12 ... 3163 - 3179 are grouped by a factor 17 ... 3180 - 3194 are grouped by a factor 15 ... 3195 - 3206 are grouped by a factor 12 ... 3207 - 3238 are grouped by a factor 16 ... 3239 - 3260 are grouped by a factor 22 ... 3261 - 3288 are grouped by a factor 28 ... 3289 - 3308 are grouped by a factor 20 ... 3309 - 3334 are grouped by a factor 26 ... 3335 - 3356 are grouped by a factor 22 ... 3357 - 3387 are grouped by a factor 31 ... 3388 - 3407 are grouped by a factor 20 ... 3408 - 3441 are grouped by a factor 34 ... 3442 - 3476 are grouped by a factor 35 ... 3477 - 3513 are grouped by a factor 37 ... 3514 - 3554 are grouped by a factor 41 ... 3555 - 3582 are grouped by a factor 28 ... 3583 - 3649 are grouped by a factor 67 ... 3650 - 3707 are grouped by a factor 58 ... 3708 - 3763 are grouped by a factor 56 ... 3764 - 3857 are grouped by a factor 94 ... 3858 - 3989 are grouped by a factor 132 ... 3990 - 4095 are grouped by a factor 106 ... --------------------------------------------- ... 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 ae703029010xi0_0_3x3n066a_sr.pi.
Input sky coordinates: 1.2196300000000E+01, 3.1956900000000E+01 Output pixel coordinates: 7.5326020124895E+02, 7.4535701531983E+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,"ae703029010xi1_0_3x3n069b_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,12.191107631588,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,58.036421227811,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,18.116400134728,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"12.1911",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"31.9636",,,"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,"268006975.000000",,,"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,12.1962999693021,,,"R.A. (J2000) in deg" deltaJ2000,r,a,31.9569009921482,,,"DEC. (J2000) in deg" alphaB1950,r,a,11.5201312854967,,,"R.A. (B1950) in deg" deltaB1950,r,a,31.6844797510862,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.000625094348325916,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00274693001343707,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,10.0715730271069,,,"angular difference in arcsec by aberration" l,r,a,122.276092752034,,,"Galactic longitude (deg)" b,r,a,-30.911469786812,,,"Galactic latitude (deg)" x,r,a,753.26,,,"X value of SKY coorindates (pixel)" y,r,a,745.36,,,"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,753.262116372723,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,745.363213442618,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,750.29635506216,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,780.480279224162,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,110.29635506216,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,140.480279224162,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.378575767511253,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-146.65007401278,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.260005291662,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,745.36000803476,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,750.293833099727,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,780.481938991437,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,951.790833099727,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,780.481938991437,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.19049643951807,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.74017133085012,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.259999999997,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,745.360000000041,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,750.293826778141,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,780.481943151833,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,490.793826778141,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,512.981943151833,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,533,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,512,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,21,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,512,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,23,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,512,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.65485173088743,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-170.647867258451,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.259999999997,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,745.360000000041,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,750.293826778141,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,780.481943151833,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,490.793826778141,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,517.981943151833,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,517,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,490,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,5,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,490,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,7,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,490,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.26563082058259,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-141.477116361141,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.259999999997,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,745.360000000041,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,750.293826778141,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,780.481943151833,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,493.793826778141,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,506.981943151833,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,517,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,530,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,5,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,530,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,7,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,530,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.252102101730628,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,9.99093990543498,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.259999999997,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,745.360000000041,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,750.293826778141,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,780.481943151833,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,482.793826778141,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,520.981943151833,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,541,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,520,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,29,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,520,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,31,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,520,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.495095576076369,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,60.1343049567882,,,"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 753.260 (pixel)
Y 745.360 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae703029010xi1_0_3x3n069b_cl.evt+1'
EA1 12.191107631588 (deg)
EA2 58.036421227811 (deg)
EA3 18.116400134728 (deg)
REF_ALPHA 12.1911 (deg) / 0h48m45.9s
REF_DELTA 31.9636 (deg) / +31d57m49s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268006975.000 / 2008-06-28T22:22:54 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 ( 12.1963 , 31.9569 ) [deg] / ( 0h48m47.1s , +31d57m25s )
B1950 ( 11.5201 , 31.6845 ) [deg] / ( 0h46m04.8s , +31d41m04s )
Galactic ( 122.2761 , -30.9115 ) [deg]
Aberration ( -2.2503 , -9.8889 ) [arcsec], Ang.Distance = 10.0716
XRS SKY ( 753.2621 , 745.3632 ) [pixel]
XRS FOC ( 750.2964 , 780.4803 ) [pixel]
XRS DET ( 110.2964 , 140.4803 ) [pixel]
XRS THETA/PHI 0.3786 [arcmin] / -146.6501 [deg]
XRS PIXEL = 8
HXD SKY ( 753.2600 , 745.3600 ) [pixel]
HXD FOC ( 750.2938 , 780.4819 ) [pixel]
HXD DET ( 951.7908 , 780.4819 ) [pixel]
HXD THETA/PHI 3.1905 [arcmin] / -3.7402 [deg]
XIS0 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS0 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS0 DET ( 490.7938 , 512.9819 ) [pixel]
XIS0 ACT ( 533 , 512 ) [pixel]
XIS0 RAW ( 21 , 512 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 23 , 512 ) [pixel]
XIS0 THETA/PHI 1.6549 [arcmin] / -170.6479 [deg]
XIS1 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS1 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS1 DET ( 490.7938 , 517.9819 ) [pixel]
XIS1 ACT ( 517 , 490 ) [pixel]
XIS1 RAW ( 5 , 490 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 7 , 490 ) [pixel]
XIS1 THETA/PHI 1.2656 [arcmin] / -141.4771 [deg]
XIS2 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS2 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS2 DET ( 493.7938 , 506.9819 ) [pixel]
XIS2 ACT ( 517 , 530 ) [pixel]
XIS2 RAW ( 5 , 530 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 7 , 530 ) [pixel]
XIS2 THETA/PHI 0.2521 [arcmin] / 9.9909 [deg]
XIS3 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS3 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS3 DET ( 482.7938 , 520.9819 ) [pixel]
XIS3 ACT ( 541 , 520 ) [pixel]
XIS3 RAW ( 29 , 520 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 31 , 520 ) [pixel]
XIS3 THETA/PHI 0.4951 [arcmin] / 60.1343 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae703029010xi1_0_3x3n069b_cl.evt_source.reg.tmp circle(753,745,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_0_3x3n069b_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
143053 74193 68860 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
143053 74193 68860 0 0 0 0
in 73300. seconds
Spectrum has 74193 counts for 1.012 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_0_3x3n069b_cl.evt
10% completed
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Total Good Bad: Region Time Phase Grade Cut
143053 26619 116434 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
143053 26619 116434 0 0 0 0
in 73300. seconds
Spectrum has 26619 counts for 0.3632 counts/sec
... written the PHA data Extension
-> Creating RMF for ae703029010xi1_0_3x3n069b_sr.piinfile,s,h,"ae703029010xi1_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 ae703029010xi1_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 - 73300. 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 - 51 are single channels ... 52 - 53 are grouped by a factor 2 ... 54 - 54 are single channels ... 55 - 70 are grouped by a factor 2 ... 71 - 73 are grouped by a factor 3 ... 74 - 77 are grouped by a factor 4 ... 78 - 79 are grouped by a factor 2 ... 80 - 87 are grouped by a factor 4 ... 88 - 90 are grouped by a factor 3 ... 91 - 96 are grouped by a factor 6 ... 97 - 104 are grouped by a factor 8 ... 105 - 109 are grouped by a factor 5 ... 110 - 127 are grouped by a factor 6 ... 128 - 136 are grouped by a factor 9 ... 137 - 142 are grouped by a factor 6 ... 143 - 145 are grouped by a factor 3 ... 146 - 165 are grouped by a factor 4 ... 166 - 175 are grouped by a factor 5 ... 176 - 183 are grouped by a factor 4 ... 184 - 186 are grouped by a factor 3 ... 187 - 191 are grouped by a factor 5 ... 192 - 197 are grouped by a factor 3 ... 198 - 201 are grouped by a factor 4 ... 202 - 204 are grouped by a factor 3 ... 205 - 212 are grouped by a factor 4 ... 213 - 222 are grouped by a factor 5 ... 223 - 226 are grouped by a factor 4 ... 227 - 235 are grouped by a factor 3 ... 236 - 239 are grouped by a factor 4 ... 240 - 245 are grouped by a factor 3 ... 246 - 249 are grouped by a factor 4 ... 250 - 252 are grouped by a factor 3 ... 253 - 257 are grouped by a factor 5 ... 258 - 260 are grouped by a factor 3 ... 261 - 264 are grouped by a factor 4 ... 265 - 267 are grouped by a factor 3 ... 268 - 271 are grouped by a factor 4 ... 272 - 276 are grouped by a factor 5 ... 277 - 288 are grouped by a factor 4 ... 289 - 294 are grouped by a factor 6 ... 295 - 297 are grouped by a factor 3 ... 298 - 301 are grouped by a factor 4 ... 302 - 306 are grouped by a factor 5 ... 307 - 310 are grouped by a factor 4 ... 311 - 315 are grouped by a factor 5 ... 316 - 319 are grouped by a factor 4 ... 320 - 329 are grouped by a factor 5 ... 330 - 345 are grouped by a factor 4 ... 346 - 370 are grouped by a factor 5 ... 371 - 374 are grouped by a factor 4 ... 375 - 380 are grouped by a factor 6 ... 381 - 385 are grouped by a factor 5 ... 386 - 388 are grouped by a factor 3 ... 389 - 398 are grouped by a factor 5 ... 399 - 402 are grouped by a factor 4 ... 403 - 408 are grouped by a factor 3 ... 409 - 412 are grouped by a factor 4 ... 413 - 415 are grouped by a factor 3 ... 416 - 419 are grouped by a factor 4 ... 420 - 425 are grouped by a factor 3 ... 426 - 429 are grouped by a factor 4 ... 430 - 439 are grouped by a factor 5 ... 440 - 447 are grouped by a factor 4 ... 448 - 452 are grouped by a factor 5 ... 453 - 455 are grouped by a factor 3 ... 456 - 463 are grouped by a factor 4 ... 464 - 469 are grouped by a factor 3 ... 470 - 483 are grouped by a factor 2 ... 484 - 486 are grouped by a factor 3 ... 487 - 488 are grouped by a factor 2 ... 489 - 491 are grouped by a factor 3 ... 492 - 495 are grouped by a factor 2 ... 496 - 498 are grouped by a factor 3 ... 499 - 500 are grouped by a factor 2 ... 501 - 503 are grouped by a factor 3 ... 504 - 505 are grouped by a factor 2 ... 506 - 514 are grouped by a factor 3 ... 515 - 516 are grouped by a factor 2 ... 517 - 519 are grouped by a factor 3 ... 520 - 525 are grouped by a factor 2 ... 526 - 531 are grouped by a factor 3 ... 532 - 543 are grouped by a factor 2 ... 544 - 546 are grouped by a factor 3 ... 547 - 572 are grouped by a factor 2 ... 573 - 573 are single channels ... 574 - 579 are grouped by a factor 2 ... 580 - 582 are grouped by a factor 3 ... 583 - 584 are single channels ... 585 - 586 are grouped by a factor 2 ... 587 - 587 are single channels ... 588 - 607 are grouped by a factor 2 ... 608 - 609 are single channels ... 610 - 611 are grouped by a factor 2 ... 612 - 612 are single channels ... 613 - 618 are grouped by a factor 2 ... 619 - 619 are single channels ... 620 - 625 are grouped by a factor 2 ... 626 - 627 are single channels ... 628 - 669 are grouped by a factor 2 ... 670 - 671 are single channels ... 672 - 683 are grouped by a factor 2 ... 684 - 684 are single channels ... 685 - 694 are grouped by a factor 2 ... 695 - 695 are single channels ... 696 - 699 are grouped by a factor 2 ... 700 - 700 are single channels ... 701 - 702 are grouped by a factor 2 ... 703 - 704 are single channels ... 705 - 708 are grouped by a factor 2 ... 709 - 711 are single channels ... 712 - 713 are grouped by a factor 2 ... 714 - 718 are single channels ... 719 - 722 are grouped by a factor 2 ... 723 - 723 are single channels ... 724 - 725 are grouped by a factor 2 ... 726 - 729 are single channels ... 730 - 731 are grouped by a factor 2 ... 732 - 750 are single channels ... 751 - 754 are grouped by a factor 2 ... 755 - 757 are single channels ... 758 - 759 are grouped by a factor 2 ... 760 - 765 are single channels ... 766 - 767 are grouped by a factor 2 ... 768 - 774 are single channels ... 775 - 776 are grouped by a factor 2 ... 777 - 782 are single channels ... 783 - 784 are grouped by a factor 2 ... 785 - 797 are single channels ... 798 - 799 are grouped by a factor 2 ... 800 - 814 are single channels ... 815 - 816 are grouped by a factor 2 ... 817 - 824 are single channels ... 825 - 826 are grouped by a factor 2 ... 827 - 1566 are single channels ... 1567 - 1568 are grouped by a factor 2 ... 1569 - 1569 are single channels ... 1570 - 1571 are grouped by a factor 2 ... 1572 - 1605 are single channels ... 1606 - 1607 are grouped by a factor 2 ... 1608 - 1609 are single channels ... 1610 - 1611 are grouped by a factor 2 ... 1612 - 1640 are single channels ... 1641 - 1644 are grouped by a factor 2 ... 1645 - 1654 are single channels ... 1655 - 1656 are grouped by a factor 2 ... 1657 - 1657 are single channels ... 1658 - 1659 are grouped by a factor 2 ... 1660 - 1667 are single channels ... 1668 - 1669 are grouped by a factor 2 ... 1670 - 1673 are single channels ... 1674 - 1675 are grouped by a factor 2 ... 1676 - 1678 are single channels ... 1679 - 1680 are grouped by a factor 2 ... 1681 - 1729 are single channels ... 1730 - 1731 are grouped by a factor 2 ... 1732 - 1754 are single channels ... 1755 - 1756 are grouped by a factor 2 ... 1757 - 1760 are single channels ... 1761 - 1764 are grouped by a factor 2 ... 1765 - 1766 are single channels ... 1767 - 1768 are grouped by a factor 2 ... 1769 - 1769 are single channels ... 1770 - 1771 are grouped by a factor 2 ... 1772 - 1775 are single channels ... 1776 - 1781 are grouped by a factor 2 ... 1782 - 1782 are single channels ... 1783 - 1784 are grouped by a factor 2 ... 1785 - 1786 are single channels ... 1787 - 1790 are grouped by a factor 2 ... 1791 - 1791 are single channels ... 1792 - 1793 are grouped by a factor 2 ... 1794 - 1795 are single channels ... 1796 - 1799 are grouped by a factor 2 ... 1800 - 1800 are single channels ... 1801 - 1804 are grouped by a factor 2 ... 1805 - 1805 are single channels ... 1806 - 1821 are grouped by a factor 2 ... 1822 - 1822 are single channels ... 1823 - 1824 are grouped by a factor 2 ... 1825 - 1825 are single channels ... 1826 - 1827 are grouped by a factor 2 ... 1828 - 1828 are single channels ... 1829 - 1830 are grouped by a factor 2 ... 1831 - 1833 are single channels ... 1834 - 1835 are grouped by a factor 2 ... 1836 - 1838 are single channels ... 1839 - 1840 are grouped by a factor 2 ... 1841 - 1843 are single channels ... 1844 - 1851 are grouped by a factor 2 ... 1852 - 1852 are single channels ... 1853 - 1856 are grouped by a factor 2 ... 1857 - 1857 are single channels ... 1858 - 1863 are grouped by a factor 2 ... 1864 - 1864 are single channels ... 1865 - 1874 are grouped by a factor 2 ... 1875 - 1875 are single channels ... 1876 - 1895 are grouped by a factor 2 ... 1896 - 1896 are single channels ... 1897 - 1912 are grouped by a factor 2 ... 1913 - 1913 are single channels ... 1914 - 1937 are grouped by a factor 2 ... 1938 - 1940 are grouped by a factor 3 ... 1941 - 1946 are grouped by a factor 2 ... 1947 - 1947 are single channels ... 1948 - 1967 are grouped by a factor 2 ... 1968 - 1973 are grouped by a factor 3 ... 1974 - 1975 are grouped by a factor 2 ... 1976 - 1984 are grouped by a factor 3 ... 1985 - 1992 are grouped by a factor 2 ... 1993 - 2001 are grouped by a factor 3 ... 2002 - 2003 are grouped by a factor 2 ... 2004 - 2006 are grouped by a factor 3 ... 2007 - 2034 are grouped by a factor 2 ... 2035 - 2037 are grouped by a factor 3 ... 2038 - 2049 are grouped by a factor 2 ... 2050 - 2050 are single channels ... 2051 - 2060 are grouped by a factor 2 ... 2061 - 2063 are grouped by a factor 3 ... 2064 - 2069 are grouped by a factor 2 ... 2070 - 2072 are grouped by a factor 3 ... 2073 - 2080 are grouped by a factor 2 ... 2081 - 2086 are grouped by a factor 3 ... 2087 - 2088 are grouped by a factor 2 ... 2089 - 2091 are grouped by a factor 3 ... 2092 - 2095 are grouped by a factor 2 ... 2096 - 2110 are grouped by a factor 3 ... 2111 - 2120 are grouped by a factor 2 ... 2121 - 2126 are grouped by a factor 3 ... 2127 - 2130 are grouped by a factor 2 ... 2131 - 2142 are grouped by a factor 3 ... 2143 - 2146 are grouped by a factor 2 ... 2147 - 2150 are grouped by a factor 4 ... 2151 - 2153 are grouped by a factor 3 ... 2154 - 2155 are grouped by a factor 2 ... 2156 - 2158 are grouped by a factor 3 ... 2159 - 2160 are grouped by a factor 2 ... 2161 - 2163 are grouped by a factor 3 ... 2164 - 2167 are grouped by a factor 4 ... 2168 - 2169 are grouped by a factor 2 ... 2170 - 2172 are grouped by a factor 3 ... 2173 - 2176 are grouped by a factor 4 ... 2177 - 2185 are grouped by a factor 3 ... 2186 - 2187 are grouped by a factor 2 ... 2188 - 2190 are grouped by a factor 3 ... 2191 - 2192 are grouped by a factor 2 ... 2193 - 2222 are grouped by a factor 3 ... 2223 - 2226 are grouped by a factor 4 ... 2227 - 2228 are grouped by a factor 2 ... 2229 - 2231 are grouped by a factor 3 ... 2232 - 2235 are grouped by a factor 4 ... 2236 - 2241 are grouped by a factor 3 ... 2242 - 2245 are grouped by a factor 4 ... 2246 - 2248 are grouped by a factor 3 ... 2249 - 2250 are grouped by a factor 2 ... 2251 - 2265 are grouped by a factor 3 ... 2266 - 2269 are grouped by a factor 4 ... 2270 - 2278 are grouped by a factor 3 ... 2279 - 2282 are grouped by a factor 4 ... 2283 - 2285 are grouped by a factor 3 ... 2286 - 2301 are grouped by a factor 4 ... 2302 - 2304 are grouped by a factor 3 ... 2305 - 2312 are grouped by a factor 4 ... 2313 - 2315 are grouped by a factor 3 ... 2316 - 2319 are grouped by a factor 4 ... 2320 - 2322 are grouped by a factor 3 ... 2323 - 2326 are grouped by a factor 4 ... 2327 - 2329 are grouped by a factor 3 ... 2330 - 2333 are grouped by a factor 4 ... 2334 - 2338 are grouped by a factor 5 ... 2339 - 2341 are grouped by a factor 3 ... 2342 - 2346 are grouped by a factor 5 ... 2347 - 2354 are grouped by a factor 4 ... 2355 - 2359 are grouped by a factor 5 ... 2360 - 2362 are grouped by a factor 3 ... 2363 - 2367 are grouped by a factor 5 ... 2368 - 2371 are grouped by a factor 4 ... 2372 - 2374 are grouped by a factor 3 ... 2375 - 2394 are grouped by a factor 4 ... 2395 - 2397 are grouped by a factor 3 ... 2398 - 2405 are grouped by a factor 4 ... 2406 - 2410 are grouped by a factor 5 ... 2411 - 2413 are grouped by a factor 3 ... 2414 - 2421 are grouped by a factor 4 ... 2422 - 2424 are grouped by a factor 3 ... 2425 - 2428 are grouped by a factor 4 ... 2429 - 2431 are grouped by a factor 3 ... 2432 - 2443 are grouped by a factor 4 ... 2444 - 2448 are grouped by a factor 5 ... 2449 - 2452 are grouped by a factor 4 ... 2453 - 2455 are grouped by a factor 3 ... 2456 - 2463 are grouped by a factor 4 ... 2464 - 2469 are grouped by a factor 6 ... 2470 - 2477 are grouped by a factor 4 ... 2478 - 2480 are grouped by a factor 3 ... 2481 - 2488 are grouped by a factor 4 ... 2489 - 2493 are grouped by a factor 5 ... 2494 - 2499 are grouped by a factor 3 ... 2500 - 2507 are grouped by a factor 4 ... 2508 - 2512 are grouped by a factor 5 ... 2513 - 2524 are grouped by a factor 4 ... 2525 - 2529 are grouped by a factor 5 ... 2530 - 2553 are grouped by a factor 4 ... 2554 - 2556 are grouped by a factor 3 ... 2557 - 2561 are grouped by a factor 5 ... 2562 - 2567 are grouped by a factor 6 ... 2568 - 2572 are grouped by a factor 5 ... 2573 - 2575 are grouped by a factor 3 ... 2576 - 2583 are grouped by a factor 4 ... 2584 - 2589 are grouped by a factor 6 ... 2590 - 2595 are grouped by a factor 3 ... 2596 - 2607 are grouped by a factor 6 ... 2608 - 2611 are grouped by a factor 4 ... 2612 - 2614 are grouped by a factor 3 ... 2615 - 2622 are grouped by a factor 4 ... 2623 - 2632 are grouped by a factor 5 ... 2633 - 2635 are grouped by a factor 3 ... 2636 - 2651 are grouped by a factor 4 ... 2652 - 2666 are grouped by a factor 5 ... 2667 - 2670 are grouped by a factor 4 ... 2671 - 2675 are grouped by a factor 5 ... 2676 - 2691 are grouped by a factor 4 ... 2692 - 2694 are grouped by a factor 3 ... 2695 - 2710 are grouped by a factor 4 ... 2711 - 2713 are grouped by a factor 3 ... 2714 - 2728 are grouped by a factor 5 ... 2729 - 2732 are grouped by a factor 4 ... 2733 - 2747 are grouped by a factor 5 ... 2748 - 2751 are grouped by a factor 4 ... 2752 - 2756 are grouped by a factor 5 ... 2757 - 2762 are grouped by a factor 6 ... 2763 - 2766 are grouped by a factor 4 ... 2767 - 2773 are grouped by a factor 7 ... 2774 - 2783 are grouped by a factor 5 ... 2784 - 2789 are grouped by a factor 6 ... 2790 - 2799 are grouped by a factor 5 ... 2800 - 2803 are grouped by a factor 4 ... 2804 - 2808 are grouped by a factor 5 ... 2809 - 2814 are grouped by a factor 6 ... 2815 - 2819 are grouped by a factor 5 ... 2820 - 2825 are grouped by a factor 6 ... 2826 - 2840 are grouped by a factor 5 ... 2841 - 2848 are grouped by a factor 4 ... 2849 - 2858 are grouped by a factor 5 ... 2859 - 2862 are grouped by a factor 4 ... 2863 - 2868 are grouped by a factor 6 ... 2869 - 2884 are grouped by a factor 4 ... 2885 - 2889 are grouped by a factor 5 ... 2890 - 2893 are grouped by a factor 4 ... 2894 - 2898 are grouped by a factor 5 ... 2899 - 2902 are grouped by a factor 4 ... 2903 - 2907 are grouped by a factor 5 ... 2908 - 2910 are grouped by a factor 3 ... 2911 - 2914 are grouped by a factor 4 ... 2915 - 2924 are grouped by a factor 5 ... 2925 - 2942 are grouped by a factor 6 ... 2943 - 2967 are grouped by a factor 5 ... 2968 - 2971 are grouped by a factor 4 ... 2972 - 2977 are grouped by a factor 6 ... 2978 - 2981 are grouped by a factor 4 ... 2982 - 2991 are grouped by a factor 5 ... 2992 - 3003 are grouped by a factor 6 ... 3004 - 3013 are grouped by a factor 5 ... 3014 - 3021 are grouped by a factor 4 ... 3022 - 3031 are grouped by a factor 5 ... 3032 - 3037 are grouped by a factor 6 ... 3038 - 3057 are grouped by a factor 5 ... 3058 - 3063 are grouped by a factor 6 ... 3064 - 3067 are grouped by a factor 4 ... 3068 - 3073 are grouped by a factor 6 ... 3074 - 3078 are grouped by a factor 5 ... 3079 - 3082 are grouped by a factor 4 ... 3083 - 3100 are grouped by a factor 6 ... 3101 - 3105 are grouped by a factor 5 ... 3106 - 3109 are grouped by a factor 4 ... 3110 - 3121 are grouped by a factor 6 ... 3122 - 3141 are grouped by a factor 5 ... 3142 - 3145 are grouped by a factor 4 ... 3146 - 3150 are grouped by a factor 5 ... 3151 - 3154 are grouped by a factor 4 ... 3155 - 3161 are grouped by a factor 7 ... 3162 - 3165 are grouped by a factor 4 ... 3166 - 3171 are grouped by a factor 6 ... 3172 - 3179 are grouped by a factor 4 ... 3180 - 3186 are grouped by a factor 7 ... 3187 - 3196 are grouped by a factor 5 ... 3197 - 3220 are grouped by a factor 4 ... 3221 - 3225 are grouped by a factor 5 ... 3226 - 3231 are grouped by a factor 6 ... 3232 - 3235 are grouped by a factor 4 ... 3236 - 3260 are grouped by a factor 5 ... 3261 - 3266 are grouped by a factor 6 ... 3267 - 3270 are grouped by a factor 4 ... 3271 - 3275 are grouped by a factor 5 ... 3276 - 3282 are grouped by a factor 7 ... 3283 - 3288 are grouped by a factor 6 ... 3289 - 3298 are grouped by a factor 5 ... 3299 - 3301 are grouped by a factor 3 ... 3302 - 3306 are grouped by a factor 5 ... 3307 - 3312 are grouped by a factor 6 ... 3313 - 3317 are grouped by a factor 5 ... 3318 - 3325 are grouped by a factor 8 ... 3326 - 3330 are grouped by a factor 5 ... 3331 - 3336 are grouped by a factor 6 ... 3337 - 3339 are grouped by a factor 3 ... 3340 - 3344 are grouped by a factor 5 ... 3345 - 3352 are grouped by a factor 4 ... 3353 - 3357 are grouped by a factor 5 ... 3358 - 3361 are grouped by a factor 4 ... 3362 - 3366 are grouped by a factor 5 ... 3367 - 3372 are grouped by a factor 6 ... 3373 - 3377 are grouped by a factor 5 ... 3378 - 3383 are grouped by a factor 6 ... 3384 - 3408 are grouped by a factor 5 ... 3409 - 3412 are grouped by a factor 4 ... 3413 - 3422 are grouped by a factor 5 ... 3423 - 3430 are grouped by a factor 4 ... 3431 - 3435 are grouped by a factor 5 ... 3436 - 3439 are grouped by a factor 4 ... 3440 - 3446 are grouped by a factor 7 ... 3447 - 3458 are grouped by a factor 6 ... 3459 - 3483 are grouped by a factor 5 ... 3484 - 3489 are grouped by a factor 6 ... 3490 - 3493 are grouped by a factor 4 ... 3494 - 3499 are grouped by a factor 6 ... 3500 - 3524 are grouped by a factor 5 ... 3525 - 3540 are grouped by a factor 8 ... 3541 - 3547 are grouped by a factor 7 ... 3548 - 3557 are grouped by a factor 5 ... 3558 - 3564 are grouped by a factor 7 ... 3565 - 3569 are grouped by a factor 5 ... 3570 - 3576 are grouped by a factor 7 ... 3577 - 3586 are grouped by a factor 5 ... 3587 - 3592 are grouped by a factor 6 ... 3593 - 3602 are grouped by a factor 5 ... 3603 - 3608 are grouped by a factor 6 ... 3609 - 3613 are grouped by a factor 5 ... 3614 - 3620 are grouped by a factor 7 ... 3621 - 3625 are grouped by a factor 5 ... 3626 - 3633 are grouped by a factor 8 ... 3634 - 3639 are grouped by a factor 6 ... 3640 - 3646 are grouped by a factor 7 ... 3647 - 3651 are grouped by a factor 5 ... 3652 - 3669 are grouped by a factor 6 ... 3670 - 3676 are grouped by a factor 7 ... 3677 - 3680 are grouped by a factor 4 ... 3681 - 3692 are grouped by a factor 6 ... 3693 - 3706 are grouped by a factor 7 ... 3707 - 3730 are grouped by a factor 6 ... 3731 - 3735 are grouped by a factor 5 ... 3736 - 3743 are grouped by a factor 8 ... 3744 - 3749 are grouped by a factor 6 ... 3750 - 3756 are grouped by a factor 7 ... 3757 - 3761 are grouped by a factor 5 ... 3762 - 3767 are grouped by a factor 6 ... 3768 - 3774 are grouped by a factor 7 ... 3775 - 3780 are grouped by a factor 6 ... 3781 - 3785 are grouped by a factor 5 ... 3786 - 3791 are grouped by a factor 6 ... 3792 - 3800 are grouped by a factor 9 ... 3801 - 3807 are grouped by a factor 7 ... 3808 - 3815 are grouped by a factor 8 ... 3816 - 3822 are grouped by a factor 7 ... 3823 - 3830 are grouped by a factor 8 ... 3831 - 3842 are grouped by a factor 6 ... 3843 - 3849 are grouped by a factor 7 ... 3850 - 3855 are grouped by a factor 6 ... 3856 - 3862 are grouped by a factor 7 ... 3863 - 3870 are grouped by a factor 8 ... 3871 - 3875 are grouped by a factor 5 ... 3876 - 3883 are grouped by a factor 8 ... 3884 - 3889 are grouped by a factor 6 ... 3890 - 3896 are grouped by a factor 7 ... 3897 - 3912 are grouped by a factor 8 ... 3913 - 3917 are grouped by a factor 5 ... 3918 - 3938 are grouped by a factor 7 ... 3939 - 3946 are grouped by a factor 8 ... 3947 - 3951 are grouped by a factor 5 ... 3952 - 3961 are grouped by a factor 10 ... 3962 - 3971 are grouped by a factor 5 ... 3972 - 3977 are grouped by a factor 6 ... 3978 - 3982 are grouped by a factor 5 ... 3983 - 3992 are grouped by a factor 10 ... 3993 - 4000 are grouped by a factor 8 ... 4001 - 4006 are grouped by a factor 6 ... 4007 - 4020 are grouped by a factor 7 ... 4021 - 4029 are grouped by a factor 9 ... 4030 - 4036 are grouped by a factor 7 ... 4037 - 4044 are grouped by a factor 8 ... 4045 - 4058 are grouped by a factor 7 ... 4059 - 4085 are grouped by a factor 9 ... 4086 - 4091 are grouped by a factor 6 ... 4092 - 4095 are grouped by a factor 4 ... --------------------------------------------- ... 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 ae703029010xi1_0_3x3n069b_sr.pi.
Input sky coordinates: 1.2196300000000E+01, 3.1956900000000E+01 Output pixel coordinates: 7.5326020124895E+02, 7.4535701531983E+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,"ae703029010xi3_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,12.191107631588,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,58.036421227811,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,18.116400134728,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"12.1911",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"31.9636",,,"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,"268006975.000000",,,"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,12.1962999693021,,,"R.A. (J2000) in deg" deltaJ2000,r,a,31.9569009921482,,,"DEC. (J2000) in deg" alphaB1950,r,a,11.5201312854967,,,"R.A. (B1950) in deg" deltaB1950,r,a,31.6844797510862,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.000625094348325916,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00274693001343707,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,10.0715730271069,,,"angular difference in arcsec by aberration" l,r,a,122.276092752034,,,"Galactic longitude (deg)" b,r,a,-30.911469786812,,,"Galactic latitude (deg)" x,r,a,753.26,,,"X value of SKY coorindates (pixel)" y,r,a,745.36,,,"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,753.262116372723,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,745.363213442618,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,750.29635506216,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,780.480279224162,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,110.29635506216,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,140.480279224162,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.378575767511253,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-146.65007401278,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.260005291662,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,745.36000803476,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,750.293833099727,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,780.481938991437,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,951.790833099727,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,780.481938991437,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.19049643951807,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.74017133085012,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.259999999997,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,745.360000000041,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,750.293826778141,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,780.481943151833,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,490.793826778141,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,512.981943151833,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,533,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,512,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,21,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,512,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,23,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,512,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.65485173088743,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-170.647867258451,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.259999999997,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,745.360000000041,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,750.293826778141,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,780.481943151833,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,490.793826778141,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,517.981943151833,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,517,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,490,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,5,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,490,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,7,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,490,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.26563082058259,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-141.477116361141,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.259999999997,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,745.360000000041,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,750.293826778141,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,780.481943151833,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,493.793826778141,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,506.981943151833,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,517,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,530,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,5,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,530,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,7,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,530,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.252102101730628,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,9.99093990543498,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.259999999997,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,745.360000000041,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,750.293826778141,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,780.481943151833,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,482.793826778141,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,520.981943151833,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,541,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,520,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,29,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,520,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,31,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,520,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.495095576076369,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,60.1343049567882,,,"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 753.260 (pixel)
Y 745.360 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae703029010xi3_0_3x3n066a_cl.evt+1'
EA1 12.191107631588 (deg)
EA2 58.036421227811 (deg)
EA3 18.116400134728 (deg)
REF_ALPHA 12.1911 (deg) / 0h48m45.9s
REF_DELTA 31.9636 (deg) / +31d57m49s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268006975.000 / 2008-06-28T22:22:54 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 ( 12.1963 , 31.9569 ) [deg] / ( 0h48m47.1s , +31d57m25s )
B1950 ( 11.5201 , 31.6845 ) [deg] / ( 0h46m04.8s , +31d41m04s )
Galactic ( 122.2761 , -30.9115 ) [deg]
Aberration ( -2.2503 , -9.8889 ) [arcsec], Ang.Distance = 10.0716
XRS SKY ( 753.2621 , 745.3632 ) [pixel]
XRS FOC ( 750.2964 , 780.4803 ) [pixel]
XRS DET ( 110.2964 , 140.4803 ) [pixel]
XRS THETA/PHI 0.3786 [arcmin] / -146.6501 [deg]
XRS PIXEL = 8
HXD SKY ( 753.2600 , 745.3600 ) [pixel]
HXD FOC ( 750.2938 , 780.4819 ) [pixel]
HXD DET ( 951.7908 , 780.4819 ) [pixel]
HXD THETA/PHI 3.1905 [arcmin] / -3.7402 [deg]
XIS0 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS0 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS0 DET ( 490.7938 , 512.9819 ) [pixel]
XIS0 ACT ( 533 , 512 ) [pixel]
XIS0 RAW ( 21 , 512 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 23 , 512 ) [pixel]
XIS0 THETA/PHI 1.6549 [arcmin] / -170.6479 [deg]
XIS1 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS1 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS1 DET ( 490.7938 , 517.9819 ) [pixel]
XIS1 ACT ( 517 , 490 ) [pixel]
XIS1 RAW ( 5 , 490 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 7 , 490 ) [pixel]
XIS1 THETA/PHI 1.2656 [arcmin] / -141.4771 [deg]
XIS2 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS2 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS2 DET ( 493.7938 , 506.9819 ) [pixel]
XIS2 ACT ( 517 , 530 ) [pixel]
XIS2 RAW ( 5 , 530 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 7 , 530 ) [pixel]
XIS2 THETA/PHI 0.2521 [arcmin] / 9.9909 [deg]
XIS3 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS3 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS3 DET ( 482.7938 , 520.9819 ) [pixel]
XIS3 ACT ( 541 , 520 ) [pixel]
XIS3 RAW ( 29 , 520 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 31 , 520 ) [pixel]
XIS3 THETA/PHI 0.4951 [arcmin] / 60.1343 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae703029010xi3_0_3x3n066a_cl.evt_source.reg.tmp circle(753,745,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
86907 69522 17385 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
86907 69522 17385 0 0 0 0
in 74372. seconds
Spectrum has 69522 counts for 0.9348 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
86907 6651 80256 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
86907 6651 80256 0 0 0 0
in 74372. seconds
Spectrum has 6651 counts for 8.9429E-02 counts/sec
... written the PHA data Extension
-> Creating RMF for ae703029010xi3_0_3x3n066a_sr.piinfile,s,h,"ae703029010xi3_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 ae703029010xi3_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 - 74372. 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 - 112 are grouped by a factor 113 ... 113 - 132 are grouped by a factor 10 ... 133 - 141 are grouped by a factor 9 ... 142 - 152 are grouped by a factor 11 ... 153 - 169 are grouped by a factor 17 ... 170 - 182 are grouped by a factor 13 ... 183 - 191 are grouped by a factor 9 ... 192 - 203 are grouped by a factor 12 ... 204 - 219 are grouped by a factor 8 ... 220 - 226 are grouped by a factor 7 ... 227 - 232 are grouped by a factor 6 ... 233 - 241 are grouped by a factor 9 ... 242 - 256 are grouped by a factor 5 ... 257 - 263 are grouped by a factor 7 ... 264 - 271 are grouped by a factor 8 ... 272 - 283 are grouped by a factor 6 ... 284 - 287 are grouped by a factor 4 ... 288 - 294 are grouped by a factor 7 ... 295 - 300 are grouped by a factor 6 ... 301 - 308 are grouped by a factor 8 ... 309 - 315 are grouped by a factor 7 ... 316 - 321 are grouped by a factor 6 ... 322 - 325 are grouped by a factor 4 ... 326 - 333 are grouped by a factor 8 ... 334 - 338 are grouped by a factor 5 ... 339 - 344 are grouped by a factor 6 ... 345 - 351 are grouped by a factor 7 ... 352 - 357 are grouped by a factor 6 ... 358 - 367 are grouped by a factor 5 ... 368 - 379 are grouped by a factor 6 ... 380 - 384 are grouped by a factor 5 ... 385 - 390 are grouped by a factor 6 ... 391 - 394 are grouped by a factor 4 ... 395 - 399 are grouped by a factor 5 ... 400 - 411 are grouped by a factor 4 ... 412 - 417 are grouped by a factor 6 ... 418 - 437 are grouped by a factor 4 ... 438 - 442 are grouped by a factor 5 ... 443 - 446 are grouped by a factor 4 ... 447 - 451 are grouped by a factor 5 ... 452 - 455 are grouped by a factor 4 ... 456 - 461 are grouped by a factor 3 ... 462 - 465 are grouped by a factor 4 ... 466 - 474 are grouped by a factor 3 ... 475 - 484 are grouped by a factor 2 ... 485 - 487 are grouped by a factor 3 ... 488 - 491 are grouped by a factor 2 ... 492 - 494 are grouped by a factor 3 ... 495 - 498 are grouped by a factor 2 ... 499 - 501 are grouped by a factor 3 ... 502 - 505 are grouped by a factor 4 ... 506 - 507 are grouped by a factor 2 ... 508 - 510 are grouped by a factor 3 ... 511 - 514 are grouped by a factor 4 ... 515 - 517 are grouped by a factor 3 ... 518 - 521 are grouped by a factor 4 ... 522 - 524 are grouped by a factor 3 ... 525 - 528 are grouped by a factor 4 ... 529 - 543 are grouped by a factor 3 ... 544 - 547 are grouped by a factor 4 ... 548 - 550 are grouped by a factor 3 ... 551 - 552 are grouped by a factor 2 ... 553 - 555 are grouped by a factor 3 ... 556 - 559 are grouped by a factor 4 ... 560 - 562 are grouped by a factor 3 ... 563 - 570 are grouped by a factor 2 ... 571 - 579 are grouped by a factor 3 ... 580 - 595 are grouped by a factor 2 ... 596 - 596 are single channels ... 597 - 610 are grouped by a factor 2 ... 611 - 611 are single channels ... 612 - 621 are grouped by a factor 2 ... 622 - 624 are grouped by a factor 3 ... 625 - 630 are grouped by a factor 2 ... 631 - 633 are grouped by a factor 3 ... 634 - 689 are grouped by a factor 2 ... 690 - 691 are single channels ... 692 - 697 are grouped by a factor 2 ... 698 - 698 are single channels ... 699 - 702 are grouped by a factor 2 ... 703 - 704 are single channels ... 705 - 706 are grouped by a factor 2 ... 707 - 708 are single channels ... 709 - 720 are grouped by a factor 2 ... 721 - 721 are single channels ... 722 - 723 are grouped by a factor 2 ... 724 - 724 are single channels ... 725 - 728 are grouped by a factor 2 ... 729 - 730 are single channels ... 731 - 734 are grouped by a factor 2 ... 735 - 735 are single channels ... 736 - 737 are grouped by a factor 2 ... 738 - 739 are single channels ... 740 - 741 are grouped by a factor 2 ... 742 - 742 are single channels ... 743 - 746 are grouped by a factor 2 ... 747 - 749 are single channels ... 750 - 753 are grouped by a factor 2 ... 754 - 756 are single channels ... 757 - 758 are grouped by a factor 2 ... 759 - 760 are single channels ... 761 - 762 are grouped by a factor 2 ... 763 - 763 are single channels ... 764 - 765 are grouped by a factor 2 ... 766 - 773 are single channels ... 774 - 777 are grouped by a factor 2 ... 778 - 786 are single channels ... 787 - 788 are grouped by a factor 2 ... 789 - 795 are single channels ... 796 - 797 are grouped by a factor 2 ... 798 - 867 are single channels ... 868 - 869 are grouped by a factor 2 ... 870 - 870 are single channels ... 871 - 872 are grouped by a factor 2 ... 873 - 1783 are single channels ... 1784 - 1785 are grouped by a factor 2 ... 1786 - 1828 are single channels ... 1829 - 1830 are grouped by a factor 2 ... 1831 - 1832 are single channels ... 1833 - 1834 are grouped by a factor 2 ... 1835 - 1841 are single channels ... 1842 - 1843 are grouped by a factor 2 ... 1844 - 1844 are single channels ... 1845 - 1846 are grouped by a factor 2 ... 1847 - 1856 are single channels ... 1857 - 1858 are grouped by a factor 2 ... 1859 - 1859 are single channels ... 1860 - 1861 are grouped by a factor 2 ... 1862 - 1866 are single channels ... 1867 - 1872 are grouped by a factor 2 ... 1873 - 1873 are single channels ... 1874 - 1877 are grouped by a factor 2 ... 1878 - 1880 are single channels ... 1881 - 1884 are grouped by a factor 2 ... 1885 - 1892 are single channels ... 1893 - 1894 are grouped by a factor 2 ... 1895 - 1897 are single channels ... 1898 - 1901 are grouped by a factor 2 ... 1902 - 1902 are single channels ... 1903 - 1904 are grouped by a factor 2 ... 1905 - 1906 are single channels ... 1907 - 1908 are grouped by a factor 2 ... 1909 - 1911 are single channels ... 1912 - 1913 are grouped by a factor 2 ... 1914 - 1916 are single channels ... 1917 - 1918 are grouped by a factor 2 ... 1919 - 1923 are single channels ... 1924 - 1925 are grouped by a factor 2 ... 1926 - 1927 are single channels ... 1928 - 1929 are grouped by a factor 2 ... 1930 - 1930 are single channels ... 1931 - 1932 are grouped by a factor 2 ... 1933 - 1933 are single channels ... 1934 - 1935 are grouped by a factor 2 ... 1936 - 1936 are single channels ... 1937 - 1946 are grouped by a factor 2 ... 1947 - 1949 are single channels ... 1950 - 1951 are grouped by a factor 2 ... 1952 - 1952 are single channels ... 1953 - 1962 are grouped by a factor 2 ... 1963 - 1965 are single channels ... 1966 - 1973 are grouped by a factor 2 ... 1974 - 1974 are single channels ... 1975 - 1984 are grouped by a factor 2 ... 1985 - 1985 are single channels ... 1986 - 1991 are grouped by a factor 2 ... 1992 - 1992 are single channels ... 1993 - 2000 are grouped by a factor 2 ... 2001 - 2001 are single channels ... 2002 - 2005 are grouped by a factor 2 ... 2006 - 2006 are single channels ... 2007 - 2014 are grouped by a factor 2 ... 2015 - 2016 are single channels ... 2017 - 2020 are grouped by a factor 2 ... 2021 - 2021 are single channels ... 2022 - 2035 are grouped by a factor 2 ... 2036 - 2036 are single channels ... 2037 - 2046 are grouped by a factor 2 ... 2047 - 2047 are single channels ... 2048 - 2055 are grouped by a factor 2 ... 2056 - 2056 are single channels ... 2057 - 2064 are grouped by a factor 2 ... 2065 - 2065 are single channels ... 2066 - 2135 are grouped by a factor 2 ... 2136 - 2141 are grouped by a factor 3 ... 2142 - 2151 are grouped by a factor 2 ... 2152 - 2154 are grouped by a factor 3 ... 2155 - 2166 are grouped by a factor 2 ... 2167 - 2169 are grouped by a factor 3 ... 2170 - 2177 are grouped by a factor 2 ... 2178 - 2180 are grouped by a factor 3 ... 2181 - 2198 are grouped by a factor 2 ... 2199 - 2204 are grouped by a factor 3 ... 2205 - 2212 are grouped by a factor 2 ... 2213 - 2215 are grouped by a factor 3 ... 2216 - 2229 are grouped by a factor 2 ... 2230 - 2235 are grouped by a factor 3 ... 2236 - 2237 are grouped by a factor 2 ... 2238 - 2240 are grouped by a factor 3 ... 2241 - 2242 are grouped by a factor 2 ... 2243 - 2248 are grouped by a factor 3 ... 2249 - 2250 are grouped by a factor 2 ... 2251 - 2253 are grouped by a factor 3 ... 2254 - 2255 are grouped by a factor 2 ... 2256 - 2261 are grouped by a factor 3 ... 2262 - 2267 are grouped by a factor 2 ... 2268 - 2279 are grouped by a factor 3 ... 2280 - 2283 are grouped by a factor 2 ... 2284 - 2289 are grouped by a factor 3 ... 2290 - 2293 are grouped by a factor 2 ... 2294 - 2296 are grouped by a factor 3 ... 2297 - 2298 are grouped by a factor 2 ... 2299 - 2310 are grouped by a factor 3 ... 2311 - 2312 are grouped by a factor 2 ... 2313 - 2321 are grouped by a factor 3 ... 2322 - 2323 are grouped by a factor 2 ... 2324 - 2326 are grouped by a factor 3 ... 2327 - 2328 are grouped by a factor 2 ... 2329 - 2331 are grouped by a factor 3 ... 2332 - 2333 are grouped by a factor 2 ... 2334 - 2339 are grouped by a factor 3 ... 2340 - 2341 are grouped by a factor 2 ... 2342 - 2362 are grouped by a factor 3 ... 2363 - 2366 are grouped by a factor 4 ... 2367 - 2378 are grouped by a factor 3 ... 2379 - 2382 are grouped by a factor 4 ... 2383 - 2385 are grouped by a factor 3 ... 2386 - 2393 are grouped by a factor 4 ... 2394 - 2405 are grouped by a factor 3 ... 2406 - 2409 are grouped by a factor 4 ... 2410 - 2424 are grouped by a factor 3 ... 2425 - 2428 are grouped by a factor 4 ... 2429 - 2431 are grouped by a factor 3 ... 2432 - 2439 are grouped by a factor 4 ... 2440 - 2444 are grouped by a factor 5 ... 2445 - 2447 are grouped by a factor 3 ... 2448 - 2451 are grouped by a factor 4 ... 2452 - 2454 are grouped by a factor 3 ... 2455 - 2458 are grouped by a factor 4 ... 2459 - 2464 are grouped by a factor 3 ... 2465 - 2476 are grouped by a factor 4 ... 2477 - 2478 are grouped by a factor 2 ... 2479 - 2486 are grouped by a factor 4 ... 2487 - 2491 are grouped by a factor 5 ... 2492 - 2495 are grouped by a factor 4 ... 2496 - 2498 are grouped by a factor 3 ... 2499 - 2502 are grouped by a factor 4 ... 2503 - 2512 are grouped by a factor 5 ... 2513 - 2516 are grouped by a factor 4 ... 2517 - 2519 are grouped by a factor 3 ... 2520 - 2527 are grouped by a factor 4 ... 2528 - 2530 are grouped by a factor 3 ... 2531 - 2546 are grouped by a factor 4 ... 2547 - 2561 are grouped by a factor 5 ... 2562 - 2569 are grouped by a factor 4 ... 2570 - 2579 are grouped by a factor 5 ... 2580 - 2582 are grouped by a factor 3 ... 2583 - 2586 are grouped by a factor 4 ... 2587 - 2591 are grouped by a factor 5 ... 2592 - 2599 are grouped by a factor 4 ... 2600 - 2605 are grouped by a factor 6 ... 2606 - 2621 are grouped by a factor 4 ... 2622 - 2626 are grouped by a factor 5 ... 2627 - 2632 are grouped by a factor 6 ... 2633 - 2642 are grouped by a factor 5 ... 2643 - 2646 are grouped by a factor 4 ... 2647 - 2651 are grouped by a factor 5 ... 2652 - 2663 are grouped by a factor 4 ... 2664 - 2669 are grouped by a factor 6 ... 2670 - 2673 are grouped by a factor 4 ... 2674 - 2676 are grouped by a factor 3 ... 2677 - 2681 are grouped by a factor 5 ... 2682 - 2687 are grouped by a factor 6 ... 2688 - 2692 are grouped by a factor 5 ... 2693 - 2698 are grouped by a factor 6 ... 2699 - 2702 are grouped by a factor 4 ... 2703 - 2707 are grouped by a factor 5 ... 2708 - 2713 are grouped by a factor 6 ... 2714 - 2718 are grouped by a factor 5 ... 2719 - 2734 are grouped by a factor 8 ... 2735 - 2739 are grouped by a factor 5 ... 2740 - 2745 are grouped by a factor 6 ... 2746 - 2750 are grouped by a factor 5 ... 2751 - 2762 are grouped by a factor 6 ... 2763 - 2769 are grouped by a factor 7 ... 2770 - 2774 are grouped by a factor 5 ... 2775 - 2783 are grouped by a factor 9 ... 2784 - 2789 are grouped by a factor 6 ... 2790 - 2796 are grouped by a factor 7 ... 2797 - 2804 are grouped by a factor 8 ... 2805 - 2818 are grouped by a factor 7 ... 2819 - 2836 are grouped by a factor 6 ... 2837 - 2843 are grouped by a factor 7 ... 2844 - 2851 are grouped by a factor 8 ... 2852 - 2860 are grouped by a factor 9 ... 2861 - 2876 are grouped by a factor 8 ... 2877 - 2894 are grouped by a factor 6 ... 2895 - 2901 are grouped by a factor 7 ... 2902 - 2910 are grouped by a factor 9 ... 2911 - 2922 are grouped by a factor 6 ... 2923 - 2946 are grouped by a factor 12 ... 2947 - 2956 are grouped by a factor 10 ... 2957 - 2962 are grouped by a factor 6 ... 2963 - 2972 are grouped by a factor 10 ... 2973 - 2981 are grouped by a factor 9 ... 2982 - 2991 are grouped by a factor 10 ... 2992 - 2998 are grouped by a factor 7 ... 2999 - 3008 are grouped by a factor 10 ... 3009 - 3017 are grouped by a factor 9 ... 3018 - 3039 are grouped by a factor 11 ... 3040 - 3045 are grouped by a factor 6 ... 3046 - 3056 are grouped by a factor 11 ... 3057 - 3072 are grouped by a factor 8 ... 3073 - 3079 are grouped by a factor 7 ... 3080 - 3091 are grouped by a factor 12 ... 3092 - 3097 are grouped by a factor 6 ... 3098 - 3110 are grouped by a factor 13 ... 3111 - 3120 are grouped by a factor 10 ... 3121 - 3133 are grouped by a factor 13 ... 3134 - 3144 are grouped by a factor 11 ... 3145 - 3153 are grouped by a factor 9 ... 3154 - 3164 are grouped by a factor 11 ... 3165 - 3177 are grouped by a factor 13 ... 3178 - 3196 are grouped by a factor 19 ... 3197 - 3212 are grouped by a factor 16 ... 3213 - 3246 are grouped by a factor 17 ... 3247 - 3272 are grouped by a factor 26 ... 3273 - 3294 are grouped by a factor 22 ... 3295 - 3323 are grouped by a factor 29 ... 3324 - 3345 are grouped by a factor 22 ... 3346 - 3372 are grouped by a factor 27 ... 3373 - 3406 are grouped by a factor 34 ... 3407 - 3444 are grouped by a factor 38 ... 3445 - 3478 are grouped by a factor 34 ... 3479 - 3518 are grouped by a factor 40 ... 3519 - 3557 are grouped by a factor 39 ... 3558 - 3586 are grouped by a factor 29 ... 3587 - 3618 are grouped by a factor 32 ... 3619 - 3649 are grouped by a factor 31 ... 3650 - 3692 are grouped by a factor 43 ... 3693 - 3755 are grouped by a factor 63 ... 3756 - 3799 are grouped by a factor 44 ... 3800 - 3870 are grouped by a factor 71 ... 3871 - 3955 are grouped by a factor 85 ... 3956 - 4085 are grouped by a factor 130 ... 4086 - 4095 are grouped by a factor 10 ... --------------------------------------------- ... 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 ae703029010xi3_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 ae703029010xi0_0_3x3n066a_sr.pi;
1 spectrum in use
Spectral Data File: ae703029010xi0_0_3x3n066a_sr.pi Spectrum 1
Net count rate (cts/s) for Spectrum:1 8.387e-01 +/- 3.525e-03 (94.1 % total)
Assigned to Data Group 1 and Plot Group 1
Noticed Channels: 1-1680
Telescope: SUZAKU Instrument: XIS0 Channel Type: PI
Exposure Time: 7.437e+04 sec
Using Background File ae703029010xi0_0_3x3n066a_bg.pi
Background Exposure Time: 7.437e+04 sec
Using Response (RMF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi0_20060213.rmf for Source 1
Using Auxiliary Response (ARF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi0_xisnom6_20060615.arf
!XSPEC12>data 2:2 ae703029010xi1_0_3x3n069b_sr.pi;
2 spectra in use
Spectral Data File: ae703029010xi1_0_3x3n069b_sr.pi Spectrum 2
Net count rate (cts/s) for Spectrum:2 7.865e-01 +/- 3.965e-03 (77.7 % total)
Assigned to Data Group 2 and Plot Group 2
Noticed Channels: 1-1880
Telescope: SUZAKU Instrument: XIS1 Channel Type: PI
Exposure Time: 7.33e+04 sec
Using Background File ae703029010xi1_0_3x3n069b_bg.pi
Background Exposure Time: 7.33e+04 sec
Using Response (RMF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi1_20060213.rmf for Source 1
Using Auxiliary Response (ARF) File /aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/cpf/ae_xi1_xisnom6_20060615.arf
!XSPEC12>data 3:3 ae703029010xi3_0_3x3n066a_sr.pi;
3 spectra in use
Spectral Data File: ae703029010xi3_0_3x3n066a_sr.pi Spectrum 3
Net count rate (cts/s) for Spectrum:3 8.792e-01 +/- 3.610e-03 (94.1 % total)
Assigned to Data Group 3 and Plot Group 3
Noticed Channels: 1-1715
Telescope: SUZAKU Instrument: XIS3 Channel Type: PI
Exposure Time: 7.437e+04 sec
Using Background File ae703029010xi3_0_3x3n066a_bg.pi
Background Exposure Time: 7.437e+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: 17 channels ignored from source number 1
ignore: 175 channels ignored from source number 2
ignore: 20 channels ignored from source number 3
!XSPEC12>ignore *:**-0.2 12.0-**;
1 channels (1) ignored in spectrum # 1
29 channels (1-29) ignored in spectrum # 2
1 channels (1) ignored in spectrum # 3
18 channels (1663-1680) ignored in spectrum # 1
136 channels (1745-1880) ignored in spectrum # 2
20 channels (1696-1715) ignored in spectrum # 3
!XSPEC12>setplot splashpage off;
!XSPEC12>setplot energy;
!XSPEC12>setplot device ae703029010xis_0_pi.gif/gif;
!XSPEC12>setplot com log y on;
!XSPEC12>setplot com rescale y;
!XSPEC12>setplot com label top SUZAKU XIS observation of MRK 348 (Sequence 703029010);
!XSPEC12>setplot com label file Exposure time: 222.0ks (total from all detectors);
!XSPEC12>setplot com time off;
!XSPEC12>plot;
!XSPEC12>exit;
XSPEC: quit
!XSPEC12>tclexit
-> Created ae703029010xis_0_pi.gif.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
83333 83333 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
83333 83333 0 0 0 0 0
in 74372. seconds
Image has 83333 counts for 1.120 counts/sec
-> stdout output from extractor
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_0_3x3n069b_cl.evt
10% completed
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Total Good Bad: Region Time Phase Grade Cut
143053 143053 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
143053 143053 0 0 0 0 0
in 73300. seconds
Image has 143053 counts for 1.952 counts/sec
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_0_3x3n066a_cl.evt
10% completed
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Total Good Bad: Region Time Phase Grade Cut
86907 86907 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
86907 86907 0 0 0 0 0
in 74372. seconds
Image has 86907 counts for 1.169 counts/sec
-> Creating four panel plot.No of detectors read in: 30 ![XIMAGE> cpd ae703029010xis_0_im.gif/gif ![XIMAGE> cey 2000 ![XIMAGE> viewport 2x2gif ![XIMAGE> read/fits/rebin=2/size=-20 ae703029010xi0_0_3x3n066a_sk.img Telescope SUZAKU XIS0 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 121.00000 Copied MAP1 to MAP9 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 121. ![XIMAGE> ra_dec/ra=12.1963/dec=31.9569/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 753.260201249 Y = 745.35701532 ![XIMAGE> ra_dec/ra=12.1963/dec=31.9569/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 753.260201249 Y = 745.35701532 ![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 $exposure ks" ![XIMAGE> grid/ticks_only ![XIMAGE> read/fits/rebin=2/size=-20 ae703029010xi1_0_3x3n069b_sk.img Telescope SUZAKU XIS1 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 77.000000 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 77. ![XIMAGE> ra_dec/ra=12.1963/dec=31.9569/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 753.260201249 Y = 745.35701532 ![XIMAGE> ra_dec/ra=12.1963/dec=31.9569/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 753.260201249 Y = 745.35701532 ![XIMAGE> chh key=instrume ![XIMAGE> set detname [chh key=instrume] ![XIMAGE> chh key=exposure ![XIMAGE> expr [chh key=exposure]/1E3 ![XIMAGE> format %.1f [expr [chh key=exposure]/1E3] ![XIMAGE> set exposure [format %.1f [expr [chh key=exposure]/1E3]] ![XIMAGE> iminfo/csize=0.75 "$detname $exposure ks" ![XIMAGE> grid/ticks_only ![XIMAGE> read/fits/rebin=2/size=-20 ae703029010xi3_0_3x3n066a_sk.img Telescope SUZAKU XIS3 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 145.00000 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 145. ![XIMAGE> ra_dec/ra=12.1963/dec=31.9569/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 753.260201249 Y = 745.35701532 ![XIMAGE> ra_dec/ra=12.1963/dec=31.9569/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 753.260201249 Y = 745.35701532 ![XIMAGE> chh key=instrume ![XIMAGE> set detname [chh key=instrume] ![XIMAGE> chh key=exposure ![XIMAGE> expr [chh key=exposure]/1E3 ![XIMAGE> format %.1f [expr [chh key=exposure]/1E3] ![XIMAGE> set exposure [format %.1f [expr [chh key=exposure]/1E3]] ![XIMAGE> iminfo/csize=0.75 "$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 703029010)" ![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,"ae703029010hxd_1_wam_uf.evt",,,"HXD wam fits file name ?" outroot,s,a,"ae703029010hxd",,,"Root name for output file?" tpu_board,i,h,"-1",,,"TPU board (-1=all, 0,1,2,3)?" ph_mode,i,h,1,,,"PH or others?(0:others, 1:PH)" min_channel,i,h,0,,,"Minimum Channel Number [0-54]" max_channel,i,h,54,,,"Maximum Channel Number [0-54]" dt_cor,b,h,y,,,"Perform a deadtime correction?: yes or no?" dt_clk,r,h,"1.28e-05",,,"Deadtime clock frequency" origin,s,h,"ISAS/JAXA",,,"ORIGIN" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,10000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkwamlc
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDrndInit version 0.2.0
HXDmktrnlc version 2.0.0
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmktrnlc version 2.0.0
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 10001 (10000)
Event... 20001 (20000)
Event... 30001 (30000)
Event... 40001 (40000)
Event... 50001 (50000)
Event... 60001 (60000)
Event... 70001 (70000)
Event... 80001 (80000)
Event... 90001 (90000)
Event... 100001 (100000)
Event... 110001 (110000)
Event... 120001 (120000)
Event... 130001 (130000)
Event... 140001 (140000)
Event... 150001 (150000)
Event... 160001 (160000)
Event... 170001 (170000)
Event... 180001 (180000)
Event... 190001 (190000)
Event... 200001 (200000)
Event... 210001 (210000)
Event... 220001 (220000)
Event... 230001 (230000)
Event... 240001 (240000)
Event... 250001 (250000)
Event... 260001 (260000)
Event... 270001 (270000)
Event... 280001 (280000)
Event... 290001 (290000)
Event... 300001 (300000)
Event... 310001 (310000)
Event... 320001 (320000)
Event... 330001 (330000)
Event... 340001 (340000)
Event... 350001 (350000)
Event... 360001 (360000)
Event... 370001 (370000)
Event... 380001 (380000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 385105
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 385104/385105
[ 2] HXDleapsecInit version 2.0.1
| OK: 385104/385104
[ 3] HXDmktrnlc version 2.0.0
| OK: 385104/385104
GET: 385104
*** 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 385104 385104 SINGLE
HXD:TRN:PACKET_AETIME 8 8 385104 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 385104 770208 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 385104 0 SINGLE
HXD:TRB:IBLOCK 4 4 385104 770208 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 385104 385104 SINGLE
HXD:TRN:BOARD 4 4 385104 770208 SINGLE
HXD:TRN:BLOCK 4 4 385104 770208 SINGLE
HXD:TRN:RDBIN 4 4 385104 770208 SINGLE
HXD:TRN:TBLID 4 4 385104 770208 SINGLE
HXD:TRN:DATA_SIZE 4 4 385104 770208 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 385104 770208 SINGLE
HXD:TRH:BLOCK 4 4 385104 770208 SINGLE
HXD:TRH:TIME 4 4 385104 385104 SINGLE
HXD:TRH:GB_TIME 4 4 385104 385104 SINGLE
HXD:TRH:GB_FLG 4 4 385104 770208 SINGLE
HXD:TRH:TIME_MODE 4 4 385104 770208 SINGLE
HXD:TRH:RBM 4 4 385104 770208 SINGLE
HXD:TRH:GB_FRZ 4 4 385104 770208 SINGLE
HXD:TRH:DT_MODE 4 4 385104 770208 SINGLE
HXD:TRH:SUMLD_MODE 4 4 385104 770208 SINGLE
HXD:TRH:BOARD 4 4 385104 770208 SINGLE
HXD:TRH:GB_TRG 4 4 385104 770208 SINGLE
HXD:TRB:PI 216 216 385104 0 SINGLE
HXD:TRB:PH 216 216 385104 770208 SINGLE
HXD:TRB:OVER_FLOW 4 4 385104 770208 SINGLE
HXD:TRB:PSEUDO 4 4 385104 770208 SINGLE
HXD:TRB:TRN_ANT 20 20 385104 770208 SINGLE
HXD:TRB:UD 4 4 385104 770208 SINGLE
HXD:TRB:DEAD_TIME 4 4 385104 770208 SINGLE
HXD:TRB:SUM_LD 4 4 385104 770208 SINGLE
HXD:TRB:WELL_ANT 16 16 385104 770208 SINGLE
HXD:TRN:TRN_QUALITY 4 4 385104 0 SINGLE
HXDtrnFitsRead:IROW 4 4 385104 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 385104 0 SINGLE
HXD:PIL:CALDB_TYPE:LEAPSEC 4 4 1 0 SINGLE
HXD:PIL:leapsec_name 2000 2000 1 0 SINGLE
ASTE:FFF_ORIGIN 256 10 1 4 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 8.338 0.456 8.794 75.29
[ 2] HXDleapsecInit 0.103 0.253 0.356 3.05
[ 3] HXDmktrnlc 2.001 0.499 2.500 21.40
(others) 0.020 0.010 0.030 0.26
--------------------------------------------------------------------------
TOTAL 10.461 1.218 11.679 100.00
-> 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,"ae703029010hxd_2_wam_uf.evt",,,"HXD wam fits file name ?" outroot,s,a,"ae703029010hxd",,,"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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 349841
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 349840/349841
[ 2] HXDleapsecInit version 2.0.1
| OK: 349840/349840
[ 3] HXDmktrnlc version 2.0.0
| OK: 349840/349840
GET: 349840
*** 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 349840 349840 SINGLE
HXD:TRN:PACKET_AETIME 8 8 349840 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 349840 699680 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 349840 0 SINGLE
HXD:TRB:IBLOCK 4 4 349840 699680 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 349840 349840 SINGLE
HXD:TRN:BOARD 4 4 349840 699680 SINGLE
HXD:TRN:BLOCK 4 4 349840 699680 SINGLE
HXD:TRN:RDBIN 4 4 349840 699680 SINGLE
HXD:TRN:TBLID 4 4 349840 699680 SINGLE
HXD:TRN:DATA_SIZE 4 4 349840 699680 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 349840 699680 SINGLE
HXD:TRH:BLOCK 4 4 349840 699680 SINGLE
HXD:TRH:TIME 4 4 349840 349840 SINGLE
HXD:TRH:GB_TIME 4 4 349840 349840 SINGLE
HXD:TRH:GB_FLG 4 4 349840 699680 SINGLE
HXD:TRH:TIME_MODE 4 4 349840 699680 SINGLE
HXD:TRH:RBM 4 4 349840 699680 SINGLE
HXD:TRH:GB_FRZ 4 4 349840 699680 SINGLE
HXD:TRH:DT_MODE 4 4 349840 699680 SINGLE
HXD:TRH:SUMLD_MODE 4 4 349840 699680 SINGLE
HXD:TRH:BOARD 4 4 349840 699680 SINGLE
HXD:TRH:GB_TRG 4 4 349840 699680 SINGLE
HXD:TRB:PI 216 216 349840 0 SINGLE
HXD:TRB:PH 216 216 349840 699680 SINGLE
HXD:TRB:OVER_FLOW 4 4 349840 699680 SINGLE
HXD:TRB:PSEUDO 4 4 349840 699680 SINGLE
HXD:TRB:TRN_ANT 20 20 349840 699680 SINGLE
HXD:TRB:UD 4 4 349840 699680 SINGLE
HXD:TRB:DEAD_TIME 4 4 349840 699680 SINGLE
HXD:TRB:SUM_LD 4 4 349840 699680 SINGLE
HXD:TRB:WELL_ANT 16 16 349840 699680 SINGLE
HXD:TRN:TRN_QUALITY 4 4 349840 0 SINGLE
HXDtrnFitsRead:IROW 4 4 349840 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 349840 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 7.723 0.482 8.205 76.59
[ 2] HXDleapsecInit 0.102 0.176 0.278 2.59
[ 3] HXDmktrnlc 1.748 0.458 2.206 20.59
(others) 0.015 0.009 0.024 0.22
--------------------------------------------------------------------------
TOTAL 9.588 1.125 10.712 100.00
-> 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: ae703029010hxd_0_gsono_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
3068310 3068310 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
3068310 3068310 0 0 0 0 0
in 78550. seconds
Fits light curve has 3068310 counts for 39.06 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: ae703029010hxd_0_pinno_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
58802 58802 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
58802 58802 0 0 0 0 0
in 78550. seconds
Fits light curve has 58802 counts for 0.7486 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:ae703029010hxd_0_gsono_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ MRK 348 Start Time (d) .... 14645 23:12:37.654
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14648 01:26:13.393
No. of Rows ....... 1252 Bin Time (s) ...... 66.79
Right Ascension ... 12.1963 Internal time sys.. Converted to TJD
Declination ....... 31.9569 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:ae703029010hxd_0_pinno_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ MRK 348 Start Time (d) .... 14645 23:12:37.654
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14648 01:26:13.393
No. of Rows ....... 1252 Bin Time (s) ...... 66.79
Right Ascension ... 12.1963 Internal time sys.. Converted to TJD
Declination ....... 31.9569 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 ... 14645.96710247150 (days) 23:12:37:654 (h:m:s:ms)
Expected Stop .... 14648.05987723261 (days) 1:26:13:393 (h:m:s:ms)
Minimum Newbin Time 66.790000 (s)
for Maximum Newbin No.. 2708
Default Newbin Time is: 353.57008 (s) (to have 1 Intv. of 512 Newbins)
Type INDEF to accept the default value
Newbin Time ...... 353.57008 (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 353.570 (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 14645 23:15:34
Ser.1 Avg 39.20 Chisq 7160. Var 7.217 Newbs. 275
Min 35.14 Max 47.18 expVar 0.2792 Bins 1252
Ser.2 Avg 0.7588 Chisq 388.1 Var 0.1191E-01 Newbs. 275
Min 0.1250 Max 1.271 expVar 0.5072E-02 Bins 1252
-> Creating light curves for XIS.Input sky coordinates: 1.2196300000000E+01, 3.1956900000000E+01 Output pixel coordinates: 7.5326020124895E+02, 7.4535701531983E+02-> Contents of aecoordcalc.par
instrume,s,a,"XIS0",,,"any of XRS/HXD/XIS0-3 to specify instrument" coord,s,a,"SKY",,,"any of ECS/J2000/B1950/GAL/SKY/FOC/DET/OPTIC to specify input coordinates" output,s,a,"FULL",,,"any of FULL/XRS/HXD/XIS0-3 for message output" attitude,f,a,"KEY",,,"attitude file, or KEY/USER" pointing,s,a,"KEY",,,"pointing type, KEY/USER" infile,f,a,"ae703029010xi0_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,12.191107631588,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,58.036421227811,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,18.116400134728,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"12.1911",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"31.9636",,,"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,"268006975.000000",,,"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,12.1962999693021,,,"R.A. (J2000) in deg" deltaJ2000,r,a,31.9569009921482,,,"DEC. (J2000) in deg" alphaB1950,r,a,11.5201312854967,,,"R.A. (B1950) in deg" deltaB1950,r,a,31.6844797510862,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.000625094348325916,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00274693001343707,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,10.0715730271069,,,"angular difference in arcsec by aberration" l,r,a,122.276092752034,,,"Galactic longitude (deg)" b,r,a,-30.911469786812,,,"Galactic latitude (deg)" x,r,a,753.26,,,"X value of SKY coorindates (pixel)" y,r,a,745.36,,,"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,753.262116372723,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,745.363213442618,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,750.29635506216,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,780.480279224162,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,110.29635506216,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,140.480279224162,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.378575767511253,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-146.65007401278,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.260005291662,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,745.36000803476,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,750.293833099727,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,780.481938991437,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,951.790833099727,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,780.481938991437,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.19049643951807,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.74017133085012,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.259999999997,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,745.360000000041,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,750.293826778141,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,780.481943151833,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,490.793826778141,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,512.981943151833,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,533,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,512,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,21,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,512,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,23,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,512,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.65485173088743,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-170.647867258451,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.259999999997,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,745.360000000041,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,750.293826778141,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,780.481943151833,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,490.793826778141,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,517.981943151833,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,517,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,490,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,5,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,490,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,7,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,490,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.26563082058259,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-141.477116361141,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.259999999997,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,745.360000000041,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,750.293826778141,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,780.481943151833,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,493.793826778141,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,506.981943151833,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,517,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,530,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,5,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,530,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,7,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,530,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.252102101730628,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,9.99093990543498,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.259999999997,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,745.360000000041,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,750.293826778141,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,780.481943151833,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,482.793826778141,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,520.981943151833,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,541,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,520,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,29,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,520,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,31,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,520,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.495095576076369,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,60.1343049567882,,,"azimuth angle from XIS3 optical axis (deg)" mjdrefi,i,h,51544,,,"integer part of the MJD-TT reference (2000.0 UT)" mjdreff,r,h,0.00074287037037037,,,"fractional part of the MJD-TT reference (64.184 s)" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,no,,,"Enable ANL module profiling" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,1000,,,"Event number printout frequency" chatter,i,h,5,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,"Mode"-> stdout output from aecoordcalc
aecoordcalc version 2007-05-14
Written by Y.ISHISAKI (TMU)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] aecoordcalc version 1.6
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = NO
CHATTER = 5
aecoordcalc: *** show parameter ***
INSTRUME XIS0
COORD SKY
X 753.260 (pixel)
Y 745.360 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae703029010xi0_0_3x3n066a_cl.evt+1'
EA1 12.191107631588 (deg)
EA2 58.036421227811 (deg)
EA3 18.116400134728 (deg)
REF_ALPHA 12.1911 (deg) / 0h48m45.9s
REF_DELTA 31.9636 (deg) / +31d57m49s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268006975.000 / 2008-06-28T22:22:54 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 ( 12.1963 , 31.9569 ) [deg] / ( 0h48m47.1s , +31d57m25s )
B1950 ( 11.5201 , 31.6845 ) [deg] / ( 0h46m04.8s , +31d41m04s )
Galactic ( 122.2761 , -30.9115 ) [deg]
Aberration ( -2.2503 , -9.8889 ) [arcsec], Ang.Distance = 10.0716
XRS SKY ( 753.2621 , 745.3632 ) [pixel]
XRS FOC ( 750.2964 , 780.4803 ) [pixel]
XRS DET ( 110.2964 , 140.4803 ) [pixel]
XRS THETA/PHI 0.3786 [arcmin] / -146.6501 [deg]
XRS PIXEL = 8
HXD SKY ( 753.2600 , 745.3600 ) [pixel]
HXD FOC ( 750.2938 , 780.4819 ) [pixel]
HXD DET ( 951.7908 , 780.4819 ) [pixel]
HXD THETA/PHI 3.1905 [arcmin] / -3.7402 [deg]
XIS0 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS0 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS0 DET ( 490.7938 , 512.9819 ) [pixel]
XIS0 ACT ( 533 , 512 ) [pixel]
XIS0 RAW ( 21 , 512 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 23 , 512 ) [pixel]
XIS0 THETA/PHI 1.6549 [arcmin] / -170.6479 [deg]
XIS1 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS1 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS1 DET ( 490.7938 , 517.9819 ) [pixel]
XIS1 ACT ( 517 , 490 ) [pixel]
XIS1 RAW ( 5 , 490 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 7 , 490 ) [pixel]
XIS1 THETA/PHI 1.2656 [arcmin] / -141.4771 [deg]
XIS2 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS2 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS2 DET ( 493.7938 , 506.9819 ) [pixel]
XIS2 ACT ( 517 , 530 ) [pixel]
XIS2 RAW ( 5 , 530 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 7 , 530 ) [pixel]
XIS2 THETA/PHI 0.2521 [arcmin] / 9.9909 [deg]
XIS3 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS3 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS3 DET ( 482.7938 , 520.9819 ) [pixel]
XIS3 ACT ( 541 , 520 ) [pixel]
XIS3 RAW ( 29 , 520 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 31 , 520 ) [pixel]
XIS3 THETA/PHI 0.4951 [arcmin] / 60.1343 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae703029010xi0_0_3x3n066a_cl.evt_source.reg.tmp circle(753,745,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi0_0_3x3n066a_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
70% completed
80% completed
90% completed
100% completed
Total Good Bad: Region Time Phase Grade Cut
83333 61940 21393 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
83333 61940 21393 0 0 0 0
in 74372. seconds
Fits light curve has 61940 counts for 0.8328 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: 1.2196300000000E+01, 3.1956900000000E+01 Output pixel coordinates: 7.5326020124895E+02, 7.4535701531983E+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,"ae703029010xi1_0_3x3n069b_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,12.191107631588,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,58.036421227811,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,18.116400134728,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"12.1911",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"31.9636",,,"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,"268006975.000000",,,"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,12.1962999693021,,,"R.A. (J2000) in deg" deltaJ2000,r,a,31.9569009921482,,,"DEC. (J2000) in deg" alphaB1950,r,a,11.5201312854967,,,"R.A. (B1950) in deg" deltaB1950,r,a,31.6844797510862,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.000625094348325916,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00274693001343707,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,10.0715730271069,,,"angular difference in arcsec by aberration" l,r,a,122.276092752034,,,"Galactic longitude (deg)" b,r,a,-30.911469786812,,,"Galactic latitude (deg)" x,r,a,753.26,,,"X value of SKY coorindates (pixel)" y,r,a,745.36,,,"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,753.262116372723,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,745.363213442618,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,750.29635506216,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,780.480279224162,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,110.29635506216,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,140.480279224162,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.378575767511253,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-146.65007401278,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.260005291662,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,745.36000803476,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,750.293833099727,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,780.481938991437,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,951.790833099727,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,780.481938991437,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.19049643951807,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.74017133085012,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.259999999997,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,745.360000000041,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,750.293826778141,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,780.481943151833,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,490.793826778141,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,512.981943151833,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,533,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,512,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,21,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,512,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,23,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,512,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.65485173088743,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-170.647867258451,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.259999999997,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,745.360000000041,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,750.293826778141,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,780.481943151833,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,490.793826778141,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,517.981943151833,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,517,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,490,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,5,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,490,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,7,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,490,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.26563082058259,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-141.477116361141,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.259999999997,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,745.360000000041,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,750.293826778141,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,780.481943151833,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,493.793826778141,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,506.981943151833,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,517,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,530,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,5,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,530,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,7,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,530,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.252102101730628,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,9.99093990543498,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.259999999997,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,745.360000000041,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,750.293826778141,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,780.481943151833,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,482.793826778141,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,520.981943151833,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,541,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,520,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,29,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,520,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,31,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,520,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.495095576076369,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,60.1343049567882,,,"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 753.260 (pixel)
Y 745.360 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae703029010xi1_0_3x3n069b_cl.evt+1'
EA1 12.191107631588 (deg)
EA2 58.036421227811 (deg)
EA3 18.116400134728 (deg)
REF_ALPHA 12.1911 (deg) / 0h48m45.9s
REF_DELTA 31.9636 (deg) / +31d57m49s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268006975.000 / 2008-06-28T22:22:54 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 ( 12.1963 , 31.9569 ) [deg] / ( 0h48m47.1s , +31d57m25s )
B1950 ( 11.5201 , 31.6845 ) [deg] / ( 0h46m04.8s , +31d41m04s )
Galactic ( 122.2761 , -30.9115 ) [deg]
Aberration ( -2.2503 , -9.8889 ) [arcsec], Ang.Distance = 10.0716
XRS SKY ( 753.2621 , 745.3632 ) [pixel]
XRS FOC ( 750.2964 , 780.4803 ) [pixel]
XRS DET ( 110.2964 , 140.4803 ) [pixel]
XRS THETA/PHI 0.3786 [arcmin] / -146.6501 [deg]
XRS PIXEL = 8
HXD SKY ( 753.2600 , 745.3600 ) [pixel]
HXD FOC ( 750.2938 , 780.4819 ) [pixel]
HXD DET ( 951.7908 , 780.4819 ) [pixel]
HXD THETA/PHI 3.1905 [arcmin] / -3.7402 [deg]
XIS0 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS0 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS0 DET ( 490.7938 , 512.9819 ) [pixel]
XIS0 ACT ( 533 , 512 ) [pixel]
XIS0 RAW ( 21 , 512 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 23 , 512 ) [pixel]
XIS0 THETA/PHI 1.6549 [arcmin] / -170.6479 [deg]
XIS1 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS1 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS1 DET ( 490.7938 , 517.9819 ) [pixel]
XIS1 ACT ( 517 , 490 ) [pixel]
XIS1 RAW ( 5 , 490 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 7 , 490 ) [pixel]
XIS1 THETA/PHI 1.2656 [arcmin] / -141.4771 [deg]
XIS2 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS2 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS2 DET ( 493.7938 , 506.9819 ) [pixel]
XIS2 ACT ( 517 , 530 ) [pixel]
XIS2 RAW ( 5 , 530 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 7 , 530 ) [pixel]
XIS2 THETA/PHI 0.2521 [arcmin] / 9.9909 [deg]
XIS3 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS3 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS3 DET ( 482.7938 , 520.9819 ) [pixel]
XIS3 ACT ( 541 , 520 ) [pixel]
XIS3 RAW ( 29 , 520 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 31 , 520 ) [pixel]
XIS3 THETA/PHI 0.4951 [arcmin] / 60.1343 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae703029010xi1_0_3x3n069b_cl.evt_source.reg.tmp circle(753,745,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi1_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
143053 62478 80575 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
143053 62478 80575 0 0 0 0
in 73300. seconds
Fits light curve has 62478 counts for 0.8524 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: 1.2196300000000E+01, 3.1956900000000E+01 Output pixel coordinates: 7.5326020124895E+02, 7.4535701531983E+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,"ae703029010xi3_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,12.191107631588,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,58.036421227811,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,18.116400134728,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"12.1911",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"31.9636",,,"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,"268006975.000000",,,"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,12.1962999693021,,,"R.A. (J2000) in deg" deltaJ2000,r,a,31.9569009921482,,,"DEC. (J2000) in deg" alphaB1950,r,a,11.5201312854967,,,"R.A. (B1950) in deg" deltaB1950,r,a,31.6844797510862,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.000625094348325916,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00274693001343707,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,10.0715730271069,,,"angular difference in arcsec by aberration" l,r,a,122.276092752034,,,"Galactic longitude (deg)" b,r,a,-30.911469786812,,,"Galactic latitude (deg)" x,r,a,753.26,,,"X value of SKY coorindates (pixel)" y,r,a,745.36,,,"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,753.262116372723,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,745.363213442618,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,750.29635506216,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,780.480279224162,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,110.29635506216,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,140.480279224162,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.378575767511253,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-146.65007401278,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.260005291662,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,745.36000803476,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,750.293833099727,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,780.481938991437,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,951.790833099727,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,780.481938991437,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.19049643951807,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.74017133085012,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.259999999997,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,745.360000000041,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,750.293826778141,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,780.481943151833,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,490.793826778141,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,512.981943151833,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,533,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,512,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,21,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,512,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,23,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,512,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.65485173088743,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-170.647867258451,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.259999999997,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,745.360000000041,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,750.293826778141,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,780.481943151833,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,490.793826778141,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,517.981943151833,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,517,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,490,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,5,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,490,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,7,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,490,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.26563082058259,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-141.477116361141,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.259999999997,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,745.360000000041,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,750.293826778141,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,780.481943151833,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,493.793826778141,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,506.981943151833,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,517,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,530,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,5,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,530,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,7,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,530,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.252102101730628,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,9.99093990543498,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.259999999997,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,745.360000000041,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,750.293826778141,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,780.481943151833,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,482.793826778141,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,520.981943151833,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,541,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,520,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,29,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,520,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,31,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,520,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.495095576076369,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,60.1343049567882,,,"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 753.260 (pixel)
Y 745.360 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae703029010xi3_0_3x3n066a_cl.evt+1'
EA1 12.191107631588 (deg)
EA2 58.036421227811 (deg)
EA3 18.116400134728 (deg)
REF_ALPHA 12.1911 (deg) / 0h48m45.9s
REF_DELTA 31.9636 (deg) / +31d57m49s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268006975.000 / 2008-06-28T22:22:54 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 ( 12.1963 , 31.9569 ) [deg] / ( 0h48m47.1s , +31d57m25s )
B1950 ( 11.5201 , 31.6845 ) [deg] / ( 0h46m04.8s , +31d41m04s )
Galactic ( 122.2761 , -30.9115 ) [deg]
Aberration ( -2.2503 , -9.8889 ) [arcsec], Ang.Distance = 10.0716
XRS SKY ( 753.2621 , 745.3632 ) [pixel]
XRS FOC ( 750.2964 , 780.4803 ) [pixel]
XRS DET ( 110.2964 , 140.4803 ) [pixel]
XRS THETA/PHI 0.3786 [arcmin] / -146.6501 [deg]
XRS PIXEL = 8
HXD SKY ( 753.2600 , 745.3600 ) [pixel]
HXD FOC ( 750.2938 , 780.4819 ) [pixel]
HXD DET ( 951.7908 , 780.4819 ) [pixel]
HXD THETA/PHI 3.1905 [arcmin] / -3.7402 [deg]
XIS0 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS0 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS0 DET ( 490.7938 , 512.9819 ) [pixel]
XIS0 ACT ( 533 , 512 ) [pixel]
XIS0 RAW ( 21 , 512 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 23 , 512 ) [pixel]
XIS0 THETA/PHI 1.6549 [arcmin] / -170.6479 [deg]
XIS1 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS1 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS1 DET ( 490.7938 , 517.9819 ) [pixel]
XIS1 ACT ( 517 , 490 ) [pixel]
XIS1 RAW ( 5 , 490 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 7 , 490 ) [pixel]
XIS1 THETA/PHI 1.2656 [arcmin] / -141.4771 [deg]
XIS2 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS2 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS2 DET ( 493.7938 , 506.9819 ) [pixel]
XIS2 ACT ( 517 , 530 ) [pixel]
XIS2 RAW ( 5 , 530 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 7 , 530 ) [pixel]
XIS2 THETA/PHI 0.2521 [arcmin] / 9.9909 [deg]
XIS3 SKY ( 753.2600 , 745.3600 ) [pixel]
XIS3 FOC ( 750.2938 , 780.4819 ) [pixel]
XIS3 DET ( 482.7938 , 520.9819 ) [pixel]
XIS3 ACT ( 541 , 520 ) [pixel]
XIS3 RAW ( 29 , 520 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 31 , 520 ) [pixel]
XIS3 THETA/PHI 0.4951 [arcmin] / 60.1343 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae703029010xi3_0_3x3n066a_cl.evt_source.reg.tmp circle(753,745,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae703029010xi3_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
86907 65054 21853 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
86907 65054 21853 0 0 0 0
in 74372. seconds
Fits light curve has 65054 counts for 0.8747 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:ae703029010xi0_0_3x3n066a_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ MRK 348 Start Time (d) .... 14646 03:05:01.025
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14647 21:43:09.004
No. of Rows ....... 1695 Bin Time (s) ...... 44.62
Right Ascension ... 12.1963 Internal time sys.. Converted to TJD
Declination ....... 31.9569 Experiment ........ SUZAKU XIS0
Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - Yes
Selected Columns: 1- Time; 2- Y-axis; 3- Y-error; 4- Fractional exposure;
File contains binned data.
Series 2 file 1:ae703029010xi1_0_3x3n069b_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ MRK 348 Start Time (d) .... 14646 03:05:01.025
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14647 21:43:09.004
No. of Rows ....... 1695 Bin Time (s) ...... 44.62
Right Ascension ... 12.1963 Internal time sys.. Converted to TJD
Declination ....... 31.9569 Experiment ........ SUZAKU XIS1
Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - Yes
Selected Columns: 1- Time; 2- Y-axis; 3- Y-error; 4- Fractional exposure;
File contains binned data.
Series 3 file 1:ae703029010xi3_0_3x3n066a_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ MRK 348 Start Time (d) .... 14646 03:05:01.025
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14647 21:43:09.004
No. of Rows ....... 1695 Bin Time (s) ...... 44.62
Right Ascension ... 12.1963 Internal time sys.. Converted to TJD
Declination ....... 31.9569 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 ... 14646.12848408126 (days) 3: 5: 1: 25 (h:m:s:ms)
Expected Stop .... 14647.90496532176 (days) 21:43: 9: 4 (h:m:s:ms)
Minimum Newbin Time 44.620000 (s)
for Maximum Newbin No.. 3440
Default Newbin Time is: 300.13293 (s) (to have 1 Intv. of 512 Newbins)
Type INDEF to accept the default value
Newbin Time ...... 300.13293 (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 300.133 (s)
Two plotting styles available:
Colour-Colour [1] ; Intensity vs Time (or Phase)[ # of series (3 or 4)];
512 analysis results per interval
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Intv 1 Start 14646 3: 7:31
Ser.1 Avg 0.8361 Chisq 231.8 Var 0.7966E-02 Newbs. 277
Min 0.6360 Max 1.697 expVar 0.5125E-02 Bins 1695
Ser.2 Avg 0.8555 Chisq 405.0 Var 0.1006E-01 Newbs. 277
Min 0.5741 Max 1.310 expVar 0.5361E-02 Bins 1695
Ser.3 Avg 0.8751 Chisq 266.8 Var 0.9307E-02 Newbs. 277
Min 0.4367 Max 1.797 expVar 0.5133E-02 Bins 1695
-> Creating light curves for BST.