The following information is also available:
infile,f,a,"ae403025010.att",,,"input attitude file name" outfile,f,a,"ae403025010.att.tmp",,,"output attitude file name" orbit,f,a,"ae403025010.orb",,,"orbit file name" hkfile,f,a,"ae403025010.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 'ae403025010.att'
OUTFILE 'ae403025010.att.tmp'
ORBIT 'ae403025010.orb'
HKFILE 'ae403025010.hk'
HK_TIME_MARGIN 60.0 (s)
CLOBBER YES
aste_orbit: reading 'ae403025010.orb[EXTNAME=PAR_ORBIT,EXTVER=0]' ...
nrow=28805, nkp=25921, tstart=266544001.0, tstop=268099201.0
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae403025010.hk'
aste_gethk-2.5: t=267239132.741 < TSTART=267272659.581 for 'HK_XIS_RAD6_T1_CAL' in 'ae403025010.hk'
aeattcor: INFO: TSTART=267272659.6 for ae403025010.hk
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae403025010.hk'
aste_gethk-2.5: found 'HK_XIS_RAD8_T1_CAL' at hdu=3, col=138 in 'ae403025010.hk'
aste_gethk-2.5: t=267334931.103 > TSTOP=267334929.322 for 'HK_XIS_RAD6_T1_CAL'
aeattcor: INFO: TSTOP=267334929.3 for ae403025010.hk
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae403025010.hk'
NUM_CORR = 85256 / number of corrected Euler angles
AVG_LAMB = 38.3419 / average ecliptic longitude (deg)
AVG_BETA = +49.7612 / average ecliptic latitude (deg)
AVG_XOFF = -41.3910 / average DETX offset (pixel)
AVG_YOFF = 6.1966 / average DETY offset (pixel)
SGM_XOFF = 5.4654 / 1 sigma DETX offset standard deviation (pixel)
SGM_YOFF = 6.5943 / 1 sigma DETY offset standard deviation (pixel)
Event... 1 (0)
aeattcor: INFO: created 'ae403025010.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 2.968 0.770 3.737 99.49
(others) 0.010 0.009 0.019 0.51
--------------------------------------------------------------------------
TOTAL 2.978 0.779 3.756 100.00
-> aeattcor successful for ae403025010.att.attitude,f,a,"ae403025010.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 'ae403025010.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=267272654.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=267334931.0
aste_aspect version 1.8
aspecting attitude: ae403025010.att
TELESCOP='SUZAKU', OBJECT='V709 CAS', (RA,DEC)=(7.2036, 59.2894)
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: 267239132.741252 267345719.976555 106587.235303
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-20 01:05:31 (54637.04550626)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-21 06:41:58 (54638.27915482)
aspecting START STOP dT: 267272654.000000 267334931.000000 62277.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-20 10:24:13 (54637.43348380)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-21 03:42:10 (54638.15428241)
averaging attitude in 60 sec sampling, 1038 points
Sample Time : 60.0 s Number of Accept / Sample : 1038 / 1038
TIME START STOP TELAPSE (s) : 267272654.0 267334931.0 62277.0
START DATE TIME in UTC (MJD): 2008-06-20 10:24:13 (54637.43348380)
STOP DATE TIME in UTC (MJD): 2008-06-21 03:42:10 (54638.15428241)
Mean [MEDIAN] Euler angles : 7.195137 30.698705 5.918395
RA DEC SUN ANGLE
Mean Sun position (deg) : 89.661651 23.445298
Mean aberration (arcsec) : -5.225391 -17.495945
Mean satellite X-axis (deg) : 14.069490 -30.517551 90.308483
Mean satellite Y-axis (deg) : 102.288866 3.017504 23.800882
Mean satellite Z-axis (deg) : 7.195137 59.301295 66.201367
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 7.195137 59.301295 84.081605
Average 7.195852 59.301730 84.081219
Minimum 7.185692 59.291481 84.073524
Maximum 7.220823 59.309091 84.145118 0.982846
Sigma (RMS) 0.004868 0.002508 0.003356 0.214571
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '403025010' / Observation identification string
OBSERVER= 'KEN EBISAWA' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'V709 CAS' / name of observed object
RA_OBJ = 7.2036 / planned target R.A.(deg)
DEC_OBJ = 59.2894 / planned target DEC.(deg)
RA_NOM = 7.1951 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 59.3013 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 84.0816 / nominal position angle from north to DETY(deg)
MEAN_EA1= 7.195136814957 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 30.698704777525 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 5.918395326193 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae403025010.att' / name of the satellite attitude file
DATE-OBS= '2008-06-20T10:24:13'/ start date of observations (UT)
DATE-END= '2008-06-21T03:42:10'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 7.1951 / average optical axis location R.A.(deg)
DEC_PNT = 59.3013 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 7.2069 / average optical axis location R.A.(deg)
DEC_PNT = 59.2433 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.1887 / average optical axis location R.A.(deg)
DEC_PNT = 59.3230 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.1740 / average optical axis location R.A.(deg)
DEC_PNT = 59.3115 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.2052 / average optical axis location R.A.(deg)
DEC_PNT = 59.2924 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.2177 / average optical axis location R.A.(deg)
DEC_PNT = 59.2931 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae403025010hxd_0_wam.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 2] Processing 'ae403025010hxd_0_wel.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 3] Processing 'ae403025010xi0_0_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'
[ 4] Processing 'ae403025010xi0_0_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'
[ 5] Processing 'ae403025010xi0_0_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'
[ 6] Processing 'ae403025010xi1_0_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'
[ 7] Processing 'ae403025010xi1_0_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'
[ 8] Processing 'ae403025010xi1_0_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'
[ 9] Processing 'ae403025010xi3_0_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'
[10] Processing 'ae403025010xi3_0_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'
[11] Processing 'ae403025010xi3_0_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'
[12] Processing 'ae403025010.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=''
[13] Processing 'ae403025010hxd_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'
[14] Processing 'ae403025010xi0_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'
[15] Processing 'ae403025010xi1_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'
[16] Processing 'ae403025010xi2_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'
[17] Processing 'ae403025010xi3_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'
[18] Processing 'ae403025010xrs_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'
[19] Processing 'ae403025010xi0_0_066.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
[20] Processing 'ae403025010xi1_0_069.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
[21] Processing 'ae403025010xi2_0_000.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS2'
+1: TELESCOP='SUZAKU', INSTRUME='XIS2'
[22] Processing 'ae403025010xi3_0_066.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
[23] Processing 'ae403025010.orb'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
+2: TELESCOP='SUZAKU', INSTRUME=''
[24] Processing 'ae403025010.att'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
[25] Processing 'ae403025010.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: 26
QUIT: 1 |
<--- [ 1] aeaspect version 2.3
| OK: 25/26
GET: 25
*** 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 1.920 3.889 5.809 99.45
(others) 0.025 0.007 0.032 0.55
--------------------------------------------------------------------------
TOTAL 1.945 3.896 5.841 100.00
-> Nominal spacecraft Euler angles: Phi=7.195136814957 Theta=30.698704777525 Psi=5.918395326193outfile,f,a,"ae403025010.ehk",,,"output .ehk file" orbit,f,a,"ae403025010.orb",,,"input orbit file" attitude,f,a,"ae403025010.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,267272594.943402,,,"start time" stop_time,r,a,267334991.575153,,,"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 'ae403025010.ehk'
ORBIT 'ae403025010.orb'
ATTITUDE 'ae403025010.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 267272594.943402
TSTOP 267334991.575153
TIME_COL_NAME ''
STEP_SEC 1.0
MARGIN_SEC 60.0
CLOBBER YES
aste_orbit: reading 'ae403025010.orb[EXTNAME=PAR_ORBIT,EXTVER=0]' ...
nrow=28805, nkp=25921, tstart=266544001.0, tstop=268099201.0
aemkehk: generate TIME from 267272534.000 to 267335052.000,
in 1.0 sec step, 62519 rows
aemkehk: creating ehk file 'ae403025010.ehk'
Event... 1 (0)
aemkehk: 'ae403025010.ehk' created
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 62520
QUIT: 1 |
<--- [ 1] AEmkEHKtimeGen version 2.4
| OK: 62519/62520
[ 2] AEmkEHKfitsWrite version 2.4
| OK: 62519/62519
GET: 62519
*** 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 62519 62519 SINGLE
ASTE:EHK:EULER1 8 8 62519 0 SINGLE
ASTE:EHK:EULER2 8 8 62519 0 SINGLE
ASTE:EHK:EULER3 8 8 62519 0 SINGLE
ASTE:EHK:FOC_RA 8 8 62519 0 SINGLE
ASTE:EHK:FOC_DEC 8 8 62519 0 SINGLE
ASTE:EHK:FOC_ROLL 8 8 62519 0 SINGLE
ASTE:EHK:DLT_RA 8 8 62519 0 SINGLE
ASTE:EHK:DLT_DEC 8 8 62519 0 SINGLE
ASTE:EHK:DLT_ROLL 8 8 62519 0 SINGLE
ASTE:EHK:ANG_DIST 8 8 62519 0 SINGLE
ASTE:EHK:SAT_ALT 8 8 62519 0 SINGLE
ASTE:EHK:SAT_LON 8 8 62519 0 SINGLE
ASTE:EHK:SAT_LAT 8 8 62519 0 SINGLE
ASTE:EHK:ELV 8 8 62519 0 SINGLE
ASTE:EHK:DYE_ELV 8 8 62519 0 SINGLE
ASTE:EHK:NTE_ELV 8 8 62519 0 SINGLE
ASTE:EHK:SUN_ALT 8 8 62519 0 SINGLE
ASTE:EHK:T_DY_NT 8 8 62519 0 SINGLE
ASTE:EHK:TN_DY_NT 8 8 62519 0 SINGLE
ASTE:EHK:COR 8 8 62519 0 SINGLE
ASTE:EHK:COR2 8 8 62519 0 SINGLE
ASTE:EHK:SAA 4 4 62519 0 SINGLE
ASTE:EHK:T_SAA 8 8 62519 0 SINGLE
ASTE:EHK:TN_SAA 8 8 62519 0 SINGLE
ASTE:EHK:SAA_HXD 4 4 62519 0 SINGLE
ASTE:EHK:T_SAA_HXD 8 8 62519 0 SINGLE
ASTE:EHK:TN_SAA_HXD 8 8 62519 0 SINGLE
ASTE:EHK:ZGMAG_ANG 8 8 62519 0 SINGLE
ASTE:EHK:ZGMAG_PHI 8 8 62519 0 SINGLE
ASTE:EHK:ZE_ANG 8 8 62519 0 SINGLE
ASTE:EHK:ZE_PHI 8 8 62519 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] AEmkEHKtimeGen 0.206 0.050 0.256 4.33
[ 2] AEmkEHKfitsWrite 5.489 0.141 5.630 95.30
(others) 0.013 0.009 0.022 0.37
--------------------------------------------------------------------------
TOTAL 5.708 0.200 5.908 100.00
-> aemkehk created ae403025010.ehk.attitude,f,a,"ae403025010.att",,,"input attitude file" filelist,f,a,"ae403025010.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 'ae403025010.att'
MOD_FILE_LIST 'ae403025010.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=267272654.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=267334931.0
aste_aspect version 1.8
aspecting attitude: ae403025010.att
TELESCOP='SUZAKU', OBJECT='V709 CAS', (RA,DEC)=(7.2036, 59.2894)
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: 267239132.741252 267345719.976555 106587.235303
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-20 01:05:31 (54637.04550626)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-21 06:41:58 (54638.27915482)
aspecting START STOP dT: 267272654.000000 267334931.000000 62277.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-20 10:24:13 (54637.43348380)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-21 03:42:10 (54638.15428241)
averaging attitude in 60 sec sampling, 1038 points
Sample Time : 60.0 s Number of Accept / Sample : 1038 / 1038
TIME START STOP TELAPSE (s) : 267272654.0 267334931.0 62277.0
START DATE TIME in UTC (MJD): 2008-06-20 10:24:13 (54637.43348380)
STOP DATE TIME in UTC (MJD): 2008-06-21 03:42:10 (54638.15428241)
Mean [MEDIAN] Euler angles : 7.195137 30.698705 5.918395
RA DEC SUN ANGLE
Mean Sun position (deg) : 89.661651 23.445298
Mean aberration (arcsec) : -5.225391 -17.495945
Mean satellite X-axis (deg) : 14.069490 -30.517551 90.308483
Mean satellite Y-axis (deg) : 102.288866 3.017504 23.800882
Mean satellite Z-axis (deg) : 7.195137 59.301295 66.201367
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 7.195137 59.301295 84.081605
Average 7.195852 59.301730 84.081219
Minimum 7.185692 59.291481 84.073524
Maximum 7.220823 59.309091 84.145118 0.982846
Sigma (RMS) 0.004868 0.002508 0.003356 0.214571
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '403025010' / Observation identification string
OBSERVER= 'KEN EBISAWA' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'V709 CAS' / name of observed object
RA_OBJ = 7.2036 / planned target R.A.(deg)
DEC_OBJ = 59.2894 / planned target DEC.(deg)
RA_NOM = 7.1951 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 59.3013 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 84.0816 / nominal position angle from north to DETY(deg)
MEAN_EA1= 7.195136814957 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 30.698704777525 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 5.918395326193 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae403025010.att' / name of the satellite attitude file
DATE-OBS= '2008-06-20T10:24:13'/ start date of observations (UT)
DATE-END= '2008-06-21T03:42:10'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 7.1951 / average optical axis location R.A.(deg)
DEC_PNT = 59.3013 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 7.2069 / average optical axis location R.A.(deg)
DEC_PNT = 59.2433 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.1887 / average optical axis location R.A.(deg)
DEC_PNT = 59.3230 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.1740 / average optical axis location R.A.(deg)
DEC_PNT = 59.3115 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.2052 / average optical axis location R.A.(deg)
DEC_PNT = 59.2924 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.2177 / average optical axis location R.A.(deg)
DEC_PNT = 59.2931 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae403025010.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 0.182 0.028 0.210 87.14
(others) 0.023 0.008 0.031 12.86
--------------------------------------------------------------------------
TOTAL 0.205 0.036 0.241 100.00
-> Fixing TNULL values.Reading ASCII configuration file /aps/subsys/proc/ae/lists/makefilter.config-> newmakefilter created ae403025010.mkf.
Time column is TIME ORDERED-> Contents of aeaspect.par
attitude,f,a,"ae403025010.att",,,"input attitude file" filelist,f,a,"ae403025010.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 'ae403025010.att'
MOD_FILE_LIST 'ae403025010.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=267272654.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=267334931.0
aste_aspect version 1.8
aspecting attitude: ae403025010.att
TELESCOP='SUZAKU', OBJECT='V709 CAS', (RA,DEC)=(7.2036, 59.2894)
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: 267239132.741252 267345719.976555 106587.235303
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-20 01:05:31 (54637.04550626)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-21 06:41:58 (54638.27915482)
aspecting START STOP dT: 267272654.000000 267334931.000000 62277.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-20 10:24:13 (54637.43348380)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-06-21 03:42:10 (54638.15428241)
averaging attitude in 60 sec sampling, 1038 points
Sample Time : 60.0 s Number of Accept / Sample : 1038 / 1038
TIME START STOP TELAPSE (s) : 267272654.0 267334931.0 62277.0
START DATE TIME in UTC (MJD): 2008-06-20 10:24:13 (54637.43348380)
STOP DATE TIME in UTC (MJD): 2008-06-21 03:42:10 (54638.15428241)
Mean [MEDIAN] Euler angles : 7.195137 30.698705 5.918395
RA DEC SUN ANGLE
Mean Sun position (deg) : 89.661651 23.445298
Mean aberration (arcsec) : -5.225391 -17.495945
Mean satellite X-axis (deg) : 14.069490 -30.517551 90.308483
Mean satellite Y-axis (deg) : 102.288866 3.017504 23.800882
Mean satellite Z-axis (deg) : 7.195137 59.301295 66.201367
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 7.195137 59.301295 84.081605
Average 7.195852 59.301730 84.081219
Minimum 7.185692 59.291481 84.073524
Maximum 7.220823 59.309091 84.145118 0.982846
Sigma (RMS) 0.004868 0.002508 0.003356 0.214571
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '403025010' / Observation identification string
OBSERVER= 'KEN EBISAWA' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'V709 CAS' / name of observed object
RA_OBJ = 7.2036 / planned target R.A.(deg)
DEC_OBJ = 59.2894 / planned target DEC.(deg)
RA_NOM = 7.1951 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = 59.3013 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 84.0816 / nominal position angle from north to DETY(deg)
MEAN_EA1= 7.195136814957 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 30.698704777525 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 5.918395326193 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae403025010.att' / name of the satellite attitude file
DATE-OBS= '2008-06-20T10:24:13'/ start date of observations (UT)
DATE-END= '2008-06-21T03:42:10'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 7.1951 / average optical axis location R.A.(deg)
DEC_PNT = 59.3013 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 7.2069 / average optical axis location R.A.(deg)
DEC_PNT = 59.2433 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.1887 / average optical axis location R.A.(deg)
DEC_PNT = 59.3230 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.1740 / average optical axis location R.A.(deg)
DEC_PNT = 59.3115 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.2052 / average optical axis location R.A.(deg)
DEC_PNT = 59.2924 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 7.2177 / average optical axis location R.A.(deg)
DEC_PNT = 59.2931 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae403025010.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 0.302 0.329 0.631 95.32
(others) 0.022 0.009 0.031 4.68
--------------------------------------------------------------------------
TOTAL 0.324 0.338 0.662 100.00
-> Generating filter file ae403025010xi0_0.filter.Reading ASCII configuration file ae403025010xi0_0.config-> newmakefilter created ae403025010xi0_0.filter.
Time column is TIME ORDERED-> Generating filter file ae403025010xi1_0.filter.
Reading ASCII configuration file ae403025010xi1_0.config-> newmakefilter created ae403025010xi1_0.filter.
Time column is TIME ORDERED-> Generating filter file ae403025010xi2_0.filter.
Reading ASCII configuration file ae403025010xi2_0.config-> newmakefilter created ae403025010xi2_0.filter.
Time column is TIME ORDERED-> Generating filter file ae403025010xi3_0.filter.
Reading ASCII configuration file ae403025010xi3_0.config-> newmakefilter created ae403025010xi3_0.filter.
Time column is TIME ORDERED
hk_dir,s,hl,"./",,,"HXD HK file directory ?" hk_file,s,hl,"ae403025010hxd_0.hk",,,"HXD HK file name ?" WPU,s,hl,"0123",,,"WPU board IDs ?" gti_fname,s,hl,"ae403025010hxd_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 = ae403025010hxd_0.hk hxdgtigen: WPU = 0123 hxdgtigen: fifo full = yes hxdgtigen: output gti = ae403025010hxd_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 ae403025010hxd_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,"ae403025010hxd_0_wel.fff",,,"HXD event fits file name ?" tim_filename,f,a,"ae403025010.tim",,,"input .tim FITS file name (HXDtimeSet)" leapfile,f,a,"CALDB",,,"leapsec file name" hklist_name,f,a,"ae403025010hxd_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 'ae403025010.tim[TIME_PACKETS_SEL]' ...
ntpk=14
aste_ti2time: reading 'ae403025010.tim[DP_TIMC]' ...
ndpk=54582, t=267096909.576 - 267507771.520
aste_ti2time: reading 'ae403025010.tim[DP_DHU_AVG]' ...
1: t0=267098485,N0=2287599616,Y=40718897/38969544,f=16777218.623,j=1,d=0
2: t0=267160405,N0=2541223936,Y=38969544/38844791,f=16777218.354,j=0,d=0
3: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=0,d=0
4: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
5: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
6: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
7: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
8: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
9: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
10: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
11: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
12: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
13: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
14: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae403025010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 8044209
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 8044208/8044209
[ 2] HXDleapsecInit version 2.0.1
| OK: 8044208/8044208
[ 3] HXDgethkInit version 0.1.0
| OK: 8044208/8044208
[ 4] HXDfwelTimeFITS version 0.3.8
| OK: 8044208/8044208
[ 5] HXDfwelTime version 2.0.0
| OK: 8044208/8044208
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 8044208/8044208
GET: 8044208
*** 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 8044208 0 SINGLE
HXD:WEL:EV_TIME 8 8 16088416 8044208 SINGLE
HXD:WEL:MTI 4 4 16088416 8044208 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 8044208 8044208 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_RESERV 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 8044208 8044208 SINGLE
HXD:WEL:DET_TYPE 4 4 8044208 8044208 SINGLE
HXD:WEL:PI_FAST 4 4 8044208 8044208 SINGLE
HXD:WEL:PI_SLOW 4 4 8044208 8044208 SINGLE
HXD:WEL:PI_PIN 16 16 8044208 8044208 SINGLE
HXD:WEL:UPI_FAST 8 8 8044208 8044208 SINGLE
HXD:WEL:UPI_SLOW 8 8 8044208 8044208 SINGLE
HXD:WEL:UPI_PIN 32 32 8044208 8044208 SINGLE
HXD:WEL:PIN_ID 4 4 8044208 8044208 SINGLE
HXD:WEL:UNITID 4 4 8044208 16086464 SINGLE
HXD:WEL:LENGTH_CHK 4 4 8044208 8044208 SINGLE
HXD:WEL:WELTIME 4 4 8044208 16086464 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 8044208 8044208 SINGLE
HXD:WEL:TRIG 4 4 8044208 8044208 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 8044208 8044208 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 8044208 8044208 SINGLE
HXD:WEL:PHA_FAST 4 4 8044208 8044208 SINGLE
HXD:WEL:PHA_SLOW 4 4 8044208 8044208 SINGLE
HXD:WEL:PHA_PIN 16 16 8044208 8044208 SINGLE
HXD:WEL:PACKET_AETIME 8 8 8044208 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 8044208 24128720 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 8044208 16086464 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 8063226 24132624 SINGLE
HXD:WEL:EVENT 204 204 16086464 8042256 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 8533 8533 SINGLE
HXDfwelTime:HXD_AE_TM_LATCH_TM 4 4 8533 8533 SINGLE
HXDfwelTime:HXD_WPU_CLK_RATE 4 4 8533 8042257 SINGLE
HXDfwelTime:HXD_SYS_TIME 8 8 8533 0 SINGLE
HXDfwelTime:HXD_HK_TIME 8 8 8533 0 SINGLE
HXDfwelTime:PWH 64 0 0 0 SINGLE
HXDfwelTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfwelTime:TIME_INVALID 4 4 8044208 0 SINGLE
HXDfwelTime:EV_TIME_TLM 8 8 8044208 0 SINGLE
HXDfwelTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 182.583 8.626 191.209 41.94
[ 2] HXDleapsecInit 2.376 4.579 6.955 1.53
[ 3] HXDgethkInit 1.813 4.367 6.180 1.36
[ 4] HXDfwelTimeFITS 3.820 4.160 7.981 1.75
[ 5] HXDfwelTime 30.787 4.268 35.056 7.69
[ 6] HXD2ndeventFitsWrite 174.534 33.973 208.507 45.73
(others) 0.017 0.006 0.023 0.01
--------------------------------------------------------------------------
TOTAL 395.930 59.980 455.910 100.00
-> hxdtime successful for ae403025010hxd_0_wel.sff.input_name,f,a,"ae403025010hxd_0_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae403025010hxd_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,"ae403025010",,,"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 = ae403025010hxd_0_wel.sff, HK = ae403025010hxd_0.hk
rm -rf ae403025010_hxdmkgainhist_tmp; mkdir ae403025010_hxdmkgainhist_tmp
maketime infile="ae403025010hxd_0.hk+1" outfile="ae403025010_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 = ae403025010_hxdmkgainhist_tmp/total.gti
fdump infile="ae403025010_hxdmkgainhist_tmp/total.gti" outfile="ae403025010_hxdmkgainhist_tmp/fdump.log" columns='START,STOP' rows=- prhead=no pagewidth=100 showrow=no
fdump log = ae403025010_hxdmkgainhist_tmp/fdump.log
GTI LIST = ae403025010_hxdmkgainhist_tmp/gtilist
Exposure = 1000000
Making Non-selection fits file now.
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_0.fff" expr="(UNITID=="0")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_1.fff" expr="(UNITID=="1")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_2.fff" expr="(UNITID=="2")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_3.fff" expr="(UNITID=="3")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_4.fff" expr="(UNITID=="4")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_5.fff" expr="(UNITID=="5")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_6.fff" expr="(UNITID=="6")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_7.fff" expr="(UNITID=="7")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_8.fff" expr="(UNITID=="8")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_9.fff" expr="(UNITID=="9")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_10.fff" expr="(UNITID=="10")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_11.fff" expr="(UNITID=="11")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_12.fff" expr="(UNITID=="12")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_13.fff" expr="(UNITID=="13")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_14.fff" expr="(UNITID=="14")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_15.fff" expr="(UNITID=="15")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
Making Hit Pattern 8 fits file now.
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_0_hitpat8.fff" expr="(UNITID==0) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0111000000000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b11100000000000000011) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_1_hitpat8.fff" expr="(UNITID==1) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1011100100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b01110000000000000000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_2_hitpat8.fff" expr="(UNITID==2) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1101100110001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_3_hitpat8.fff" expr="(UNITID==3) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1110000000001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000111) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_4_hitpat8.fff" expr="(UNITID==4) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110011100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00111000000000000000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_5_hitpat8.fff" expr="(UNITID==5) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000101100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00011111000000000000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_6_hitpat8.fff" expr="(UNITID==6) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000110111000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000011100000000000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_7_hitpat8.fff" expr="(UNITID==7) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110111011000100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_8_hitpat8.fff" expr="(UNITID==8) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0010001101110110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_9_hitpat8.fff" expr="(UNITID==9) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000001110110000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000001110000000000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_10_hitpat8.fff" expr="(UNITID==10) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011010000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000111110000000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_11_hitpat8.fff" expr="(UNITID==11) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011100110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000111000000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_12_hitpat8.fff" expr="(UNITID==12) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000000000111) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000001110) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_13_hitpat8.fff" expr="(UNITID==13) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000110011011) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_14_hitpat8.fff" expr="(UNITID==14) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000010011101) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000011100000) == (b00000000000000000000)))"
fselect infile="ae403025010hxd_0_wel.sff" outfile="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010dmy.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="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_0.fff
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Total Good Bad: Region Time Phase Grade Cut
407173 406899 0 274 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
407173 406899 0 274 0 0 0
in 54076. seconds
Spectrum has 406899 counts for 7.525 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_0.fff
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Total Good Bad: Region Time Phase Grade Cut
407173 406899 0 274 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
407173 406899 0 274 0 0 0
in 54076. seconds
Spectrum has 406899 counts for 7.525 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_0_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
172865 172739 0 126 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
172865 172739 0 126 0 0 0
in 54076. seconds
Spectrum has 172739 counts for 3.194 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_0_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
172865 172739 0 126 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
172865 172739 0 126 0 0 0
in 54076. seconds
Spectrum has 172739 counts for 3.194 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_1.fff
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Total Good Bad: Region Time Phase Grade Cut
422022 421752 0 270 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
422022 421752 0 270 0 0 0
in 54076. seconds
Spectrum has 421752 counts for 7.799 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_1.fff
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Total Good Bad: Region Time Phase Grade Cut
422022 421752 0 270 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
422022 421752 0 270 0 0 0
in 54076. seconds
Spectrum has 421752 counts for 7.799 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
190732 190593 0 139 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
190732 190593 0 139 0 0 0
in 54076. seconds
Spectrum has 190593 counts for 3.525 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
190732 190593 0 139 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
190732 190593 0 139 0 0 0
in 54076. seconds
Spectrum has 190593 counts for 3.525 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
391876 391597 0 279 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
391876 391597 0 279 0 0 0
in 54076. seconds
Spectrum has 391597 counts for 7.242 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
391876 391597 0 279 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
391876 391597 0 279 0 0 0
in 54076. seconds
Spectrum has 391597 counts for 7.242 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
173751 173617 0 134 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
173751 173617 0 134 0 0 0
in 54076. seconds
Spectrum has 173617 counts for 3.211 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
173751 173617 0 134 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
173751 173617 0 134 0 0 0
in 54076. seconds
Spectrum has 173617 counts for 3.211 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
415493 415237 0 256 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
415493 415237 0 256 0 0 0
in 54076. seconds
Spectrum has 415237 counts for 7.679 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
415493 415237 0 256 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
415493 415237 0 256 0 0 0
in 54076. seconds
Spectrum has 415237 counts for 7.679 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
175849 175737 0 112 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
175849 175737 0 112 0 0 0
in 54076. seconds
Spectrum has 175737 counts for 3.250 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
175849 175737 0 112 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
175849 175737 0 112 0 0 0
in 54076. seconds
Spectrum has 175737 counts for 3.250 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
402601 402310 0 291 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
402601 402310 0 291 0 0 0
in 54076. seconds
Spectrum has 402310 counts for 7.440 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
402601 402310 0 291 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
402601 402310 0 291 0 0 0
in 54076. seconds
Spectrum has 402310 counts for 7.440 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
167837 167712 0 125 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
167837 167712 0 125 0 0 0
in 54076. seconds
Spectrum has 167712 counts for 3.101 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
167837 167712 0 125 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
167837 167712 0 125 0 0 0
in 54076. seconds
Spectrum has 167712 counts for 3.101 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
406094 405818 0 276 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
406094 405818 0 276 0 0 0
in 54076. seconds
Spectrum has 405818 counts for 7.505 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
406094 405818 0 276 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
406094 405818 0 276 0 0 0
in 54076. seconds
Spectrum has 405818 counts for 7.505 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
173726 173594 0 132 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
173726 173594 0 132 0 0 0
in 54076. seconds
Spectrum has 173594 counts for 3.210 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
173726 173594 0 132 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
173726 173594 0 132 0 0 0
in 54076. seconds
Spectrum has 173594 counts for 3.210 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
409556 409308 0 248 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
409556 409308 0 248 0 0 0
in 54076. seconds
Spectrum has 409308 counts for 7.569 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
409556 409308 0 248 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
409556 409308 0 248 0 0 0
in 54076. seconds
Spectrum has 409308 counts for 7.569 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
172788 172682 0 106 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
172788 172682 0 106 0 0 0
in 54076. seconds
Spectrum has 172682 counts for 3.193 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
172788 172682 0 106 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
172788 172682 0 106 0 0 0
in 54076. seconds
Spectrum has 172682 counts for 3.193 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
474208 473897 0 311 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
474208 473897 0 311 0 0 0
in 54076. seconds
Spectrum has 473897 counts for 8.764 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
474208 473897 0 311 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
474208 473897 0 311 0 0 0
in 54076. seconds
Spectrum has 473897 counts for 8.764 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
191895 191763 0 132 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
191895 191763 0 132 0 0 0
in 54076. seconds
Spectrum has 191763 counts for 3.546 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
191895 191763 0 132 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
191895 191763 0 132 0 0 0
in 54076. seconds
Spectrum has 191763 counts for 3.546 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
430039 429740 0 299 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
430039 429740 0 299 0 0 0
in 54076. seconds
Spectrum has 429740 counts for 7.947 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
430039 429740 0 299 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
430039 429740 0 299 0 0 0
in 54076. seconds
Spectrum has 429740 counts for 7.947 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
180121 179997 0 124 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
180121 179997 0 124 0 0 0
in 54076. seconds
Spectrum has 179997 counts for 3.329 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
180121 179997 0 124 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
180121 179997 0 124 0 0 0
in 54076. seconds
Spectrum has 179997 counts for 3.329 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
394993 394707 0 286 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
394993 394707 0 286 0 0 0
in 54076. seconds
Spectrum has 394707 counts for 7.299 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
394993 394707 0 286 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
394993 394707 0 286 0 0 0
in 54076. seconds
Spectrum has 394707 counts for 7.299 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
170789 170652 0 137 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
170789 170652 0 137 0 0 0
in 54076. seconds
Spectrum has 170652 counts for 3.156 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
170789 170652 0 137 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
170789 170652 0 137 0 0 0
in 54076. seconds
Spectrum has 170652 counts for 3.156 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
417844 417590 0 254 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
417844 417590 0 254 0 0 0
in 54076. seconds
Spectrum has 417590 counts for 7.722 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
417844 417590 0 254 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
417844 417590 0 254 0 0 0
in 54076. seconds
Spectrum has 417590 counts for 7.722 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
176228 176123 0 105 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
176228 176123 0 105 0 0 0
in 54076. seconds
Spectrum has 176123 counts for 3.257 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
176228 176123 0 105 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
176228 176123 0 105 0 0 0
in 54076. seconds
Spectrum has 176123 counts for 3.257 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
484110 483808 0 302 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
484110 483808 0 302 0 0 0
in 54076. seconds
Spectrum has 483808 counts for 8.947 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
484110 483808 0 302 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
484110 483808 0 302 0 0 0
in 54076. seconds
Spectrum has 483808 counts for 8.947 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
197099 196980 0 119 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
197099 196980 0 119 0 0 0
in 54076. seconds
Spectrum has 196980 counts for 3.643 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
197099 196980 0 119 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
197099 196980 0 119 0 0 0
in 54076. seconds
Spectrum has 196980 counts for 3.643 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
415393 415128 0 265 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
415393 415128 0 265 0 0 0
in 54076. seconds
Spectrum has 415128 counts for 7.677 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
415393 415128 0 265 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
415393 415128 0 265 0 0 0
in 54076. seconds
Spectrum has 415128 counts for 7.677 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
174435 174319 0 116 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
174435 174319 0 116 0 0 0
in 54076. seconds
Spectrum has 174319 counts for 3.224 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
174435 174319 0 116 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
174435 174319 0 116 0 0 0
in 54076. seconds
Spectrum has 174319 counts for 3.224 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
398131 397871 0 260 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
398131 397871 0 260 0 0 0
in 54076. seconds
Spectrum has 397871 counts for 7.358 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
398131 397871 0 260 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
398131 397871 0 260 0 0 0
in 54076. seconds
Spectrum has 397871 counts for 7.358 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
174915 174799 0 116 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
174915 174799 0 116 0 0 0
in 54076. seconds
Spectrum has 174799 counts for 3.232 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
174915 174799 0 116 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
174915 174799 0 116 0 0 0
in 54076. seconds
Spectrum has 174799 counts for 3.232 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
431565 431267 0 298 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
431565 431267 0 298 0 0 0
in 54076. seconds
Spectrum has 431267 counts for 7.975 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
431565 431267 0 298 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
431565 431267 0 298 0 0 0
in 54076. seconds
Spectrum has 431267 counts for 7.975 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
177780 177651 0 129 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
177780 177651 0 129 0 0 0
in 54076. seconds
Spectrum has 177651 counts for 3.285 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
177780 177651 0 129 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
177780 177651 0 129 0 0 0
in 54076. seconds
Spectrum has 177651 counts for 3.285 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_gti_0_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
404603 404331 0 272 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
404603 404331 0 272 0 0 0
in 54076. seconds
Spectrum has 404331 counts for 7.477 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_gti_0_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
404603 404331 0 272 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
404603 404331 0 272 0 0 0
in 54076. seconds
Spectrum has 404331 counts for 7.477 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_gti_0_hitpat8_slow.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_15_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
172928 172805 0 123 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
172928 172805 0 123 0 0 0
in 54076. seconds
Spectrum has 172805 counts for 3.196 counts/sec
... written the PHA data Extension
extractor filename="ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_gti_0_hitpat8_fast.pha" timefile="ae403025010_hxdmkgainhist_tmp/ae403025010_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: ae403025010_hxdmkgainhist_tmp/tmp_ae403025010_15_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
172928 172805 0 123 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
172928 172805 0 123 0 0 0
in 54076. seconds
Spectrum has 172805 counts for 3.196 counts/sec
... written the PHA data Extension
rbnpha infile="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_gti_0_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_gti_0_hitpat8_slow.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_gti_0_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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="ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_gti_0_hitpat8_fast.pha" outfile="ae403025010_hxdmkgainhist_tmp/ae403025010_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 14:06:03 01-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 3.194 +/- 7.6858E-03
Net count rate (cts/s) for file 2 3.194 +/- 7.6858E-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 = 327704.1 using 168 PHA bins.
Reduced chi-squared = 2048.150 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17773.40 using 168 PHA bins.
Reduced chi-squared = 111.0838 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
11398.4 -3 81.31 16.17 0.1874 1.096
0.8612 81.92 15.74 1.084
5341.04 -4 71.63 5.751 8.5171E-02 0.9137
0.7721 73.95 6.804 0.9228
2118.73 -5 74.49 13.45 0.1684 1.072
1.120 77.64 17.28 1.070
1777.84 -2 78.17 8.209 0.1024 1.074
1.281 77.98 4.666 1.076
753.616 -3 75.09 9.148 0.1573 1.128
1.511 78.07 8.453 1.126
737.225 -4 76.19 9.462 0.1974 1.170
1.748 77.77 12.94 1.170
564.234 -5 76.11 9.113 0.1887 1.167
1.775 77.97 9.723 1.168
563.898 -1 76.01 9.393 0.1962 1.168
1.769 77.78 10.55 1.170
556.971 -2 76.03 9.373 0.1972 1.169
1.772 77.76 10.02 1.170
556.843 -3 76.03 9.414 0.1983 1.171
1.784 77.75 10.20 1.172
556.720 -4 76.04 9.394 0.1980 1.171
1.789 77.76 10.08 1.173
556.675 -5 76.03 9.407 0.1983 1.171
1.789 77.76 10.14 1.173
556.672 0 76.03 9.406 0.1983 1.171
1.789 77.76 10.12 1.173
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.09E-06 | 0.00 0.00 -0.29 0.69 -0.18 0.00 0.00 0.63
1.22E-06 | 0.00 0.00 -0.02 -0.68 0.00 0.00 0.00 0.74
9.06E-06 | 0.00 0.01 -0.96 -0.20 0.06 0.00 0.04 -0.21
2.11E-03 | 0.01 -0.07 0.03 -0.01 -0.09 0.03 0.99 0.00
5.64E-03 | -0.09 -0.06 0.01 0.14 0.97 -0.08 0.09 0.13
4.21E-02 | 0.70 0.70 0.01 0.02 0.10 -0.03 0.05 0.01
6.13E-02 | 0.42 -0.40 -0.01 0.01 0.08 0.81 -0.05 0.01
4.96E-02 | 0.57 -0.59 -0.01 -0.01 -0.03 -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 76.0332 +/- 0.218111 1
2 2 1 gaussian Sigma keV 9.40576 +/- 0.217510 1
3 3 1 gaussian norm 0.198277 +/- 0.419750E-02 1
4 4 2 powerlaw PhoIndex 1.17129 +/- 0.110238E-01 1
5 5 2 powerlaw norm 1.78923 +/- 0.784277E-01 1
6 6 3 gaussian LineE keV 77.7557 +/- 0.238833 2
7 7 3 gaussian Sigma keV 10.1245 +/- 0.497534E-01 2
8 3 3 gaussian norm 0.198277 = par 3 2
9 8 4 powerlaw PhoIndex 1.17275 +/- 0.105961E-01 2
10 5 4 powerlaw norm 1.78923 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 556.6717 using 168 PHA bins.
Reduced chi-squared = 3.479198 for 160 degrees of freedom
Null hypothesis probability = 2.803E-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 ( 3.333) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.333) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.173 photons ( 1.3783E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.167 photons ( 1.3766E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:04 01-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 7.525 +/- 1.1796E-02
Net count rate (cts/s) for file 2 7.525 +/- 1.1796E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.330 +/- 1.4079E-02( 57.5% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.330 +/- 1.4079E-02( 57.5% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 6026058. using 198 PHA bins.
Reduced chi-squared = 31716.09 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 73935.69 using 198 PHA bins.
Reduced chi-squared = 389.1352 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
39431.6 -3 119.4 18.67 0.4358 2.857
0.1999 111.6 18.65 2.792
17820.4 -2 107.7 19.32 1.498 9.309
5.9516E-02 111.9 19.27 8.040
17518.1 -1 109.4 19.36 1.521 9.416
1.7581E-02 111.8 19.34 9.023
17295.3 -1 110.3 19.36 1.523 9.462
3.3932E-03 111.8 19.35 9.470
17264.7 -1 110.8 19.37 1.527 9.485
6.0588E-04 111.7 19.36 9.487
17222.7 -1 111.0 19.37 1.528 9.494
1.1176E-04 111.7 19.36 9.494
15659.0 0 112.0 19.37 1.447 9.499
8.5484E-06 112.5 19.37 9.497
14655.0 0 113.1 19.37 1.393 9.500
1.7651E-06 113.4 19.37 9.499
13975.4 0 114.1 19.37 1.354 9.500
8.6930E-07 114.2 19.37 9.500
13516.5 0 115.0 19.37 1.326 9.500
4.0346E-07 114.8 19.37 9.500
13212.8 0 115.8 19.37 1.303 9.500
1.6380E-07 115.4 19.37 9.500
13013.4 0 116.4 19.37 1.286 9.500
3.9649E-08 115.9 19.37 9.500
12888.7 0 116.9 19.37 1.272 9.500
7.9624E-09 116.2 19.37 9.500
12708.2 0 117.8 19.37 1.242 9.500
1.8421E-10 116.7 19.37 9.500
12675.6 0 118.0 19.37 1.236 9.500
3.6904E-12 116.8 19.37 9.500
12658.4 0 118.2 19.37 1.233 9.500
8.6961E-13 116.8 19.37 9.500
12647.5 0 118.3 19.37 1.230 9.500
1.6121E-13 116.9 19.37 9.500
Fit parameter 5 has pegged
12583.3 0 118.3 19.37 1.220 9.500
0.000 116.6 19.13 9.500
Fit parameter 5 has pegged
12574.9 0 118.3 19.37 1.215 9.500
0.000 116.6 19.14 9.500
Fit parameter 5 has pegged
12572.5 0 118.3 19.37 1.214 9.500
0.000 116.6 19.14 9.500
Fit parameter 5 has pegged
12570.4 0 118.3 19.37 1.213 9.500
0.000 116.5 19.15 9.500
Fit parameter 5 has pegged
12568.5 0 118.3 19.37 1.212 9.500
0.000 116.5 19.15 9.500
Fit parameter 5 has pegged
12567.2 0 118.4 19.37 1.212 9.500
0.000 116.5 19.15 9.500
Fit parameter 5 has pegged
12566.7 0 118.4 19.37 1.211 9.500
0.000 116.5 19.14 9.500
Fit parameter 5 has pegged
12566.0 0 118.4 19.37 1.211 9.500
0.000 116.5 19.14 9.500
Fit parameter 5 has pegged
12565.8 0 118.4 19.37 1.211 9.500
0.000 116.5 19.14 9.500
Fit parameter 5 has pegged
12564.8 0 118.4 19.37 1.211 9.500
0.000 116.6 19.14 9.500
Fit parameter 5 has pegged
12560.2 0 118.4 19.37 1.210 9.500
0.000 116.6 19.14 9.500
Fit parameter 5 has pegged
12556.0 0 118.5 19.37 1.209 9.500
0.000 116.6 19.14 9.500
Fit parameter 5 has pegged
12552.2 0 118.5 19.37 1.208 9.500
0.000 116.6 19.14 9.500
Fit parameter 5 has pegged
12548.8 0 118.6 19.37 1.207 9.500
0.000 116.6 19.14 9.500
Fit parameter 5 has pegged
12545.7 0 118.6 19.37 1.206 9.500
0.000 116.6 19.14 9.500
Fit parameter 5 has pegged
12542.9 0 118.7 19.37 1.205 9.500
0.000 116.6 19.14 9.500
Fit parameter 5 has pegged
12540.4 0 118.7 19.37 1.204 9.500
0.000 116.6 19.14 9.500
Fit parameter 5 has pegged
12538.0 0 118.7 19.37 1.204 9.500
0.000 116.6 19.13 9.500
Fit parameter 5 has pegged
12535.9 0 118.8 19.37 1.203 9.500
0.000 116.6 19.13 9.500
Fit parameter 5 has pegged
12534.0 0 118.8 19.37 1.202 9.500
0.000 116.6 19.13 9.500
Fit parameter 5 has pegged
12532.3 0 118.8 19.37 1.202 9.500
0.000 116.6 19.13 9.500
Fit parameter 5 has pegged
12530.6 0 118.8 19.37 1.201 9.500
0.000 116.6 19.13 9.500
Fit parameter 5 has pegged
12529.2 0 118.9 19.37 1.200 9.500
0.000 116.6 19.13 9.500
Fit parameter 5 has pegged
12527.9 0 118.9 19.37 1.200 9.500
0.000 116.6 19.12 9.500
Fit parameter 5 has pegged
12526.6 0 118.9 19.37 1.199 9.500
0.000 116.6 19.12 9.500
Fit parameter 5 has pegged
12525.5 0 118.9 19.37 1.199 9.500
0.000 116.6 19.12 9.500
Fit parameter 5 has pegged
12524.5 0 119.0 19.37 1.198 9.500
0.000 116.6 19.12 9.500
Fit parameter 5 has pegged
12523.5 0 119.0 19.37 1.198 9.500
0.000 116.6 19.12 9.500
Fit parameter 5 has pegged
12522.7 0 119.0 19.37 1.198 9.500
0.000 116.6 19.11 9.500
Fit parameter 5 has pegged
12521.8 0 119.0 19.37 1.197 9.500
0.000 116.6 19.11 9.500
Fit parameter 5 has pegged
12521.1 0 119.0 19.37 1.197 9.500
0.000 116.6 19.11 9.500
Fit parameter 5 has pegged
12520.4 0 119.1 19.37 1.196 9.500
0.000 116.6 19.11 9.500
Fit parameter 5 has pegged
12519.8 0 119.1 19.37 1.196 9.500
0.000 116.7 19.11 9.500
Fit parameter 5 has pegged
12519.2 0 119.1 19.37 1.196 9.500
0.000 116.7 19.10 9.500
Fit parameter 5 has pegged
12518.6 0 119.1 19.37 1.195 9.500
0.000 116.7 19.10 9.500
Fit parameter 5 has pegged
12518.1 0 119.1 19.37 1.195 9.500
0.000 116.7 19.10 9.500
Fit parameter 5 has pegged
12517.7 0 119.1 19.37 1.195 9.500
0.000 116.7 19.10 9.500
Fit parameter 5 has pegged
12517.2 0 119.1 19.37 1.194 9.500
0.000 116.7 19.09 9.500
Fit parameter 5 has pegged
12516.8 0 119.1 19.37 1.194 9.500
0.000 116.7 19.09 9.500
Fit parameter 5 has pegged
12516.4 0 119.2 19.37 1.194 9.500
0.000 116.7 19.09 9.500
Fit parameter 5 has pegged
12516.1 0 119.2 19.37 1.194 9.500
0.000 116.7 19.09 9.500
Fit parameter 5 has pegged
12515.6 0 119.2 19.37 1.193 9.500
0.000 116.7 19.08 9.500
Fit parameter 5 has pegged
12515.3 0 119.2 19.37 1.193 9.500
0.000 116.7 19.08 9.500
Fit parameter 5 has pegged
12515.0 0 119.2 19.37 1.193 9.500
0.000 116.7 19.08 9.500
Fit parameter 5 has pegged
12514.7 0 119.2 19.37 1.193 9.500
0.000 116.7 19.08 9.500
Fit parameter 5 has pegged
12514.5 0 119.2 19.37 1.192 9.500
0.000 116.7 19.08 9.500
Fit parameter 5 has pegged
12514.3 0 119.2 19.37 1.192 9.500
0.000 116.7 19.08 9.500
Fit parameter 5 has pegged
12514.0 0 119.2 19.37 1.192 9.500
0.000 116.7 19.07 9.500
Fit parameter 5 has pegged
12513.8 0 119.2 19.37 1.192 9.500
0.000 116.7 19.07 9.500
Fit parameter 5 has pegged
12513.6 0 119.2 19.37 1.192 9.500
0.000 116.7 19.07 9.500
Fit parameter 5 has pegged
12513.4 0 119.2 19.37 1.191 9.500
0.000 116.8 19.07 9.500
Fit parameter 5 has pegged
12513.2 0 119.2 19.37 1.191 9.500
0.000 116.8 19.07 9.500
Fit parameter 5 has pegged
12513.0 0 119.3 19.37 1.191 9.500
0.000 116.8 19.07 9.500
Fit parameter 5 has pegged
12512.9 0 119.3 19.37 1.191 9.500
0.000 116.8 19.06 9.500
Fit parameter 5 has pegged
12512.7 0 119.3 19.37 1.191 9.500
0.000 116.8 19.06 9.500
Fit parameter 5 has pegged
12512.6 0 119.3 19.37 1.191 9.500
0.000 116.8 19.06 9.500
Fit parameter 5 has pegged
12512.4 0 119.3 19.37 1.190 9.500
0.000 116.8 19.06 9.500
Fit parameter 5 has pegged
12512.3 0 119.3 19.37 1.190 9.500
0.000 116.8 19.06 9.500
Fit parameter 5 has pegged
12512.2 0 119.3 19.37 1.190 9.500
0.000 116.8 19.05 9.500
Fit parameter 5 has pegged
12512.0 0 119.3 19.37 1.190 9.500
0.000 116.8 19.05 9.500
Fit parameter 5 has pegged
12511.9 0 119.3 19.37 1.190 9.500
0.000 116.8 19.05 9.500
Fit parameter 5 has pegged
12511.9 0 119.3 19.37 1.190 9.500
0.000 116.8 19.05 9.500
Fit parameter 5 has pegged
12511.7 0 119.3 19.37 1.190 9.500
0.000 116.8 19.05 9.500
Fit parameter 5 has pegged
12511.7 0 119.3 19.37 1.190 9.500
0.000 116.8 19.05 9.500
Fit parameter 5 has pegged
12511.5 0 119.3 19.37 1.189 9.500
0.000 116.8 19.05 9.500
Fit parameter 5 has pegged
12511.5 0 119.3 19.37 1.189 9.500
0.000 116.8 19.04 9.500
Fit parameter 5 has pegged
12511.3 0 119.3 19.37 1.189 9.500
0.000 116.8 19.04 9.500
Fit parameter 5 has pegged
12511.3 0 119.3 19.37 1.189 9.500
0.000 116.8 19.04 9.500
Fit parameter 5 has pegged
12511.2 0 119.3 19.37 1.189 9.500
0.000 116.8 19.04 9.500
Fit parameter 5 has pegged
12511.1 0 119.3 19.37 1.189 9.500
0.000 116.8 19.04 9.500
Fit parameter 5 has pegged
12511.0 0 119.3 19.37 1.189 9.500
0.000 116.8 19.04 9.500
Fit parameter 5 has pegged
12511.0 0 119.3 19.37 1.189 9.500
0.000 116.8 19.04 9.500
Fit parameter 5 has pegged
12510.9 0 119.3 19.37 1.189 9.500
0.000 116.8 19.04 9.500
Fit parameter 5 has pegged
12510.9 0 119.3 19.37 1.189 9.500
0.000 116.8 19.03 9.500
Fit parameter 5 has pegged
12510.8 0 119.3 19.37 1.188 9.500
0.000 116.8 19.03 9.500
12510.7 0 119.3 19.37 1.188 9.500
0.000 116.9 19.04 9.500
Fit parameter 5 has pegged
12510.7 4 119.3 19.37 1.188 9.500
0.000 116.9 19.04 9.500
12510.6 0 119.3 19.37 1.188 9.500
0.000 116.9 19.04 9.500
Fit parameter 5 has pegged
12510.6 0 119.3 19.37 1.188 9.500
0.000 116.9 19.03 9.500
Fit parameter 5 has pegged
12510.5 0 119.3 19.37 1.188 9.500
0.000 116.9 19.03 9.500
Fit parameter 5 has pegged
12510.5 0 119.3 19.37 1.188 9.500
0.000 116.9 19.03 9.500
Fit parameter 5 has pegged
12510.4 0 119.3 19.37 1.188 9.500
0.000 116.9 19.03 9.500
Fit parameter 5 has pegged
12510.4 0 119.3 19.37 1.188 9.500
0.000 116.9 19.03 9.500
Fit parameter 5 has pegged
12510.3 0 119.3 19.37 1.188 9.500
0.000 116.9 19.02 9.500
Fit parameter 5 has pegged
12510.3 0 119.3 19.37 1.188 9.500
0.000 116.9 19.02 9.500
Fit parameter 5 has pegged
12510.3 0 119.3 19.37 1.188 9.500
0.000 116.9 19.02 9.500
Fit parameter 5 has pegged
12510.2 1 119.3 19.37 1.188 9.500
0.000 116.9 19.02 9.500
Fit parameter 5 has pegged
12510.2 2 119.3 19.37 1.188 9.500
0.000 116.9 19.02 9.500
Fit parameter 5 has pegged
12510.2 3 119.3 19.37 1.188 9.500
0.000 116.9 19.02 9.500
12510.2 6 119.3 19.37 1.188 9.500
0.000 116.9 19.02 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.20E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.76E-02 | 0.29 0.01 0.01 -0.94 -0.18
2.20E-02 | -0.95 -0.06 0.01 -0.28 -0.08
2.89E+00 | -0.06 0.99 0.00 -0.03 0.10
4.19E-01 | -0.02 -0.10 0.00 -0.19 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 119.340 +/- 0.183864 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.68770 1
3 3 1 gaussian norm 1.18770 +/- 0.622969E-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 116.877 +/- 0.187981 2
7 7 3 gaussian Sigma keV 19.0202 +/- 0.652623 2
8 3 3 gaussian norm 1.18770 = 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 = 12510.20 using 198 PHA bins.
Reduced chi-squared = 65.84315 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 ( 63.504) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 63.504) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 0.9988 photons ( 1.9990E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9650 photons ( 1.9044E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:04 01-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 3.194 +/- 7.6858E-03
Net count rate (cts/s) for file 2 3.194 +/- 7.6858E-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 = 390161.8 using 168 PHA bins.
Reduced chi-squared = 2438.511 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 25474.21 using 168 PHA bins.
Reduced chi-squared = 159.2138 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4013.61 -2 84.65 13.08 0.1146 0.9116
0.6111 84.95 12.11 0.9048
3557.39 -3 64.56 13.77 0.1784 1.039
0.9234 69.46 12.35 1.035
1811.97 -2 79.38 16.24 0.2137 1.070
1.113 78.58 13.91 1.069
1359.85 -3 74.81 5.973 0.1106 1.073
1.264 77.72 8.850 1.072
1149.36 -4 75.22 12.41 0.1876 1.148
1.581 77.75 13.81 1.147
860.499 -5 77.78 9.193 0.1460 1.168
1.829 78.89 8.967 1.168
833.218 -6 75.48 10.02 0.2007 1.177
1.829 77.62 13.93 1.178
612.820 -7 76.36 9.600 0.1770 1.166
1.786 78.28 9.355 1.167
560.176 -1 76.08 9.213 0.1926 1.168
1.773 77.84 10.14 1.169
556.853 -2 75.99 9.460 0.1984 1.169
1.772 77.74 10.12 1.170
556.717 -3 76.04 9.376 0.1978 1.171
1.784 77.76 10.10 1.172
556.675 -4 76.03 9.413 0.1983 1.171
1.789 77.76 10.13 1.173
556.673 0 76.03 9.409 0.1983 1.171
1.789 77.76 10.12 1.173
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.09E-06 | 0.00 0.00 -0.29 0.69 -0.18 0.00 0.00 0.63
1.22E-06 | 0.00 0.00 -0.02 -0.68 0.00 0.00 0.00 0.73
9.06E-06 | 0.00 0.01 -0.96 -0.20 0.06 0.00 0.04 -0.21
2.16E-03 | 0.01 -0.08 0.03 -0.01 -0.10 0.03 0.99 0.00
5.64E-03 | -0.09 -0.06 0.01 0.14 0.97 -0.08 0.09 0.13
4.21E-02 | 0.70 0.70 0.01 0.02 0.10 -0.03 0.05 0.01
6.13E-02 | 0.42 -0.40 -0.01 0.01 0.08 0.81 -0.05 0.01
4.96E-02 | 0.56 -0.58 -0.01 -0.01 -0.03 -0.58 -0.03 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.0317 +/- 0.218256 1
2 2 1 gaussian Sigma keV 9.40879 +/- 0.217644 1
3 3 1 gaussian norm 0.198316 +/- 0.419819E-02 1
4 4 2 powerlaw PhoIndex 1.17128 +/- 0.110247E-01 1
5 5 2 powerlaw norm 1.78895 +/- 0.784203E-01 1
6 6 3 gaussian LineE keV 77.7554 +/- 0.238515 2
7 7 3 gaussian Sigma keV 10.1233 +/- 0.503368E-01 2
8 3 3 gaussian norm 0.198316 = par 3 2
9 8 4 powerlaw PhoIndex 1.17272 +/- 0.105970E-01 2
10 5 4 powerlaw norm 1.78895 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 556.6726 using 168 PHA bins.
Reduced chi-squared = 3.479204 for 160 degrees of freedom
Null hypothesis probability = 2.803E-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 ( 3.333) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.333) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.173 photons ( 1.3782E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.167 photons ( 1.3766E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
111.0838
=====best line=====
76.0332 0.218111
=====best sigma=====
9.40576 0.217510
=====norm=====
0.198277 0.419750E-02
=====phoindx=====
1.17129 0.110238E-01
=====pow_norm=====
1.78923 0.784277E-01
=====best line=====
77.7557 0.238833
=====best sigma=====
10.1245 0.497534E-01
=====norm=====
0.198277 par
=====phoindx=====
1.17275 0.105961E-01
=====pow_norm=====
1.78923 par
=====redu_chi=====
3.479198
=====area_flux=====
1.173
=====area_flux_f=====
1.167
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 0 1 640 2000 1216.5312 0 0.198277 0.419750E-02 9.40576 0.217510 1.17129 0.110238E-01 1.78923 0.784277E-01 1.173 640 2000 1244.0912 0 0.198277 0.419750E-02 10.1245 0.497534E-01 1.17275 0.105961E-01 1.78923 0.784277E-01 1.167 3.479198 1
=====redu_chi=====
389.1352
=====best line=====
119.340 0.183864
=====best sigma=====
19.3655 1.68770
=====norm=====
1.18770 0.622969E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.877 0.187981
=====best sigma=====
19.0202 0.652623
=====norm=====
1.18770 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
65.84315
=====area_flux=====
0.9988
=====area_flux_f=====
0.9650
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 0 1 1600 3200 1909.44 0 1.18770 0.622969E-02 309.848 27.0032 9.50000 -1.00000 0.00000 -1.00000 0.9988 1600 3200 1870.032 0 1.18770 0.622969E-02 304.3232 10.441968 9.50001 -1.00000 0.00000 -1.00000 0.9650 65.84315 1
=====redu_chi=====
159.2138
=====best line=====
76.0317 0.218256
=====best sigma=====
9.40879 0.217644
=====norm=====
0.198316 0.419819E-02
=====phoindx=====
1.17128 0.110247E-01
=====pow_norm=====
1.78895 0.784203E-01
=====best line=====
77.7554 0.238515
=====best sigma=====
10.1233 0.503368E-01
=====norm=====
0.198316 par
=====phoindx=====
1.17272 0.105970E-01
=====pow_norm=====
1.78895 par
=====redu_chi=====
3.479204
=====area_flux=====
1.173
=====area_flux_f=====
1.167
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 0 1 640 2000 1216.5072 0 0.198316 0.419819E-02 9.40879 0.217644 1.17128 0.110247E-01 1.78895 0.784203E-01 1.173 640 2000 1244.0864 0 0.198316 0.419819E-02 10.1233 0.503368E-01 1.17272 0.105970E-01 1.78895 0.784203E-01 1.167 3.479204 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:04 01-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 3.525 +/- 8.0733E-03
Net count rate (cts/s) for file 2 3.525 +/- 8.0733E-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 = 294903.5 using 168 PHA bins.
Reduced chi-squared = 1843.147 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 14248.87 using 168 PHA bins.
Reduced chi-squared = 89.05541 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2839.53 -3 82.30 15.23 0.1657 0.9573
0.6733 83.30 14.23 0.9515
1999.72 -4 73.90 6.808 8.3796E-02 0.9210
0.7051 77.83 7.972 0.9220
1406.55 -1 77.59 11.58 0.1545 0.9325
0.6882 81.32 13.20 0.9338
873.964 -2 77.82 9.216 0.1399 0.9564
0.7622 78.82 8.968 0.9561
666.883 -2 77.53 9.035 0.1832 0.9870
0.8351 80.50 11.40 0.9871
553.291 -2 77.72 8.962 0.1785 1.007
0.9131 80.04 9.820 1.007
520.025 -2 77.77 9.185 0.1851 1.025
0.9819 80.38 9.652 1.025
502.832 -2 77.84 9.134 0.1856 1.039
1.043 80.45 9.661 1.039
501.259 -3 78.00 9.266 0.1897 1.079
1.215 80.63 9.783 1.079
476.088 -4 78.07 9.264 0.1908 1.093
1.307 80.69 9.786 1.094
474.180 -5 78.07 9.272 0.1909 1.093
1.314 80.69 9.786 1.094
474.177 -6 78.08 9.269 0.1909 1.093
1.314 80.69 9.785 1.094
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.03E-06 | 0.00 0.00 -0.28 0.68 -0.24 0.00 0.00 0.63
1.18E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
8.54E-06 | 0.00 0.01 -0.96 -0.19 0.08 0.00 0.01 -0.19
3.11E-03 | 0.06 0.04 -0.01 -0.18 -0.96 0.06 0.04 -0.17
3.33E-02 | -0.17 -0.75 0.00 0.00 -0.01 0.12 0.63 0.00
7.13E-02 | 0.22 -0.58 -0.01 -0.01 -0.02 0.33 -0.71 -0.01
4.73E-02 | 0.94 -0.07 0.00 0.01 0.04 -0.26 0.22 0.01
5.21E-02 | 0.21 0.30 0.00 0.02 0.08 0.90 0.24 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 78.0756 +/- 0.219389 1
2 2 1 gaussian Sigma keV 9.26927 +/- 0.218858 1
3 3 1 gaussian norm 0.190864 +/- 0.407905E-02 1
4 4 2 powerlaw PhoIndex 1.09331 +/- 0.111108E-01 1
5 5 2 powerlaw norm 1.31392 +/- 0.577437E-01 1
6 6 3 gaussian LineE keV 80.6908 +/- 0.231150 2
7 7 3 gaussian Sigma keV 9.78508 +/- 0.232393 2
8 3 3 gaussian norm 0.190864 = par 3 2
9 8 4 powerlaw PhoIndex 1.09438 +/- 0.106808E-01 2
10 5 4 powerlaw norm 1.31392 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 474.1773 using 168 PHA bins.
Reduced chi-squared = 2.963608 for 160 degrees of freedom
Null hypothesis probability = 7.493E-33
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.839) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.839) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.187 photons ( 1.4100E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.183 photons ( 1.4126E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:04 01-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 7.799 +/- 1.2010E-02
Net count rate (cts/s) for file 2 7.799 +/- 1.2010E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.275 +/- 1.4471E-02( 54.8% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.275 +/- 1.4471E-02( 54.8% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 5186062. using 198 PHA bins.
Reduced chi-squared = 27295.06 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 72181.11 using 198 PHA bins.
Reduced chi-squared = 379.9006 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
39766.6 -3 115.7 18.47 0.4600 2.857
0.2299 108.1 18.30 2.795
23182.0 -2 105.4 19.30 1.674 9.130
5.3995E-02 108.0 19.18 8.754
21935.9 -1 106.8 19.35 1.660 9.391
2.1571E-02 108.7 19.35 9.342
21015.6 -1 107.8 19.36 1.642 2.666
4.4185E-04 109.4 19.36 9.443
20269.0 -1 108.8 19.36 1.627 8.977
1.9117E-04 110.1 19.36 9.477
19489.1 -1 109.5 19.37 1.607 9.305
4.2854E-05 110.7 19.36 9.490
18862.3 -1 110.1 19.37 1.592 2.099
1.8859E-05 111.3 19.37 9.497
18862.1 4 110.1 19.37 1.592 1.865
2.6755E-05 111.3 19.37 9.499
18861.0 3 110.1 19.37 1.592 1.548
5.6756E-05 111.3 19.37 9.500
18853.7 2 110.1 19.37 1.591 1.402
1.2726E-04 111.3 19.37 9.500
18782.6 1 110.1 19.37 1.589 1.118
4.5723E-04 111.3 19.37 9.500
18186.2 0 110.4 19.37 1.564 1.015
8.7058E-04 111.5 19.37 9.500
16086.2 0 111.6 19.37 1.478 1.229
7.4223E-05 112.7 19.37 9.500
14606.9 0 113.0 19.37 1.418 6.510
1.6756E-05 114.0 19.37 9.500
13565.2 0 114.2 19.37 1.376 8.383
6.9289E-06 115.1 19.37 9.500
12848.8 0 115.4 19.37 1.343 9.475
1.3005E-07 116.0 19.37 9.500
12057.5 0 117.1 19.37 1.300 9.499
4.2255E-09 117.3 19.37 9.500
11850.4 0 117.7 19.37 1.285 9.500
1.4338E-09 117.7 19.37 9.500
11713.0 0 118.2 19.37 1.273 9.500
1.7539E-11 118.0 19.37 9.500
11562.4 0 118.8 19.37 1.257 9.501
3.6289E-13 118.4 19.37 9.500
Fit parameter 5 has pegged
11475.1 0 119.2 19.37 1.241 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11450.7 0 119.3 19.37 1.235 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11437.3 0 119.3 19.37 1.232 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11429.2 0 119.4 19.37 1.231 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11421.6 0 119.4 19.37 1.229 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11414.9 0 119.5 19.37 1.228 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11413.4 0 119.5 19.37 1.228 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11410.9 0 119.5 19.37 1.227 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11408.1 0 119.5 19.37 1.227 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11407.1 0 119.5 19.37 1.226 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11405.7 0 119.6 19.37 1.226 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11404.3 0 119.6 19.37 1.226 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11396.6 0 119.6 19.37 1.224 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11389.6 0 119.7 19.37 1.222 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11383.1 0 119.7 19.37 1.221 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11377.4 0 119.8 19.37 1.219 9.501
0.000 118.4 19.37 9.500
Fit parameter 5 has pegged
11372.2 0 119.8 19.37 1.218 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11367.4 0 119.9 19.37 1.217 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11363.1 0 119.9 19.37 1.216 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11359.2 0 120.0 19.37 1.214 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11355.6 0 120.0 19.37 1.213 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11352.4 0 120.1 19.37 1.212 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11349.4 0 120.1 19.37 1.212 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11346.7 0 120.1 19.37 1.211 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11344.2 0 120.2 19.37 1.210 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11342.0 0 120.2 19.37 1.209 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11339.9 0 120.2 19.37 1.208 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11338.0 0 120.3 19.37 1.208 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11336.3 0 120.3 19.37 1.207 9.501
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
11334.8 0 120.3 19.37 1.206 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11333.3 0 120.3 19.37 1.206 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11332.0 0 120.4 19.37 1.205 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11330.8 0 120.4 19.37 1.205 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11329.6 0 120.4 19.37 1.204 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11328.6 0 120.4 19.37 1.204 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11327.6 0 120.4 19.37 1.203 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11326.8 0 120.5 19.37 1.203 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11326.0 0 120.5 19.37 1.203 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11325.3 0 120.5 19.37 1.202 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11324.6 0 120.5 19.37 1.202 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11324.1 0 120.5 19.37 1.201 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11323.5 0 120.5 19.37 1.201 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11322.9 0 120.6 19.37 1.201 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11322.5 0 120.6 19.37 1.201 9.501
0.000 118.6 19.36 9.500
Fit parameter 5 has pegged
11322.1 0 120.6 19.37 1.200 9.501
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
11321.7 0 120.6 19.37 1.200 9.501
0.000 118.6 19.36 9.500
Fit parameter 5 has pegged
11321.3 0 120.6 19.37 1.200 9.501
0.000 118.6 19.36 9.500
Fit parameter 5 has pegged
11320.9 0 120.6 19.37 1.200 9.501
0.000 118.6 19.36 9.500
Fit parameter 5 has pegged
11320.6 0 120.6 19.37 1.199 9.501
0.000 118.6 19.36 9.500
Fit parameter 5 has pegged
11320.3 0 120.6 19.37 1.199 9.501
0.000 118.6 19.36 9.500
Fit parameter 5 has pegged
11320.0 0 120.6 19.37 1.199 9.501
0.000 118.6 19.36 9.500
Fit parameter 5 has pegged
11319.7 0 120.6 19.37 1.199 9.501
0.000 118.6 19.36 9.500
Fit parameter 5 has pegged
11319.5 0 120.7 19.37 1.199 9.501
0.000 118.7 19.36 9.500
Fit parameter 5 has pegged
11319.2 0 120.7 19.37 1.198 9.501
0.000 118.7 19.36 9.500
Fit parameter 5 has pegged
11319.0 0 120.7 19.37 1.198 9.501
0.000 118.7 19.36 9.500
Fit parameter 5 has pegged
11318.8 0 120.7 19.37 1.198 9.501
0.000 118.7 19.36 9.500
Fit parameter 5 has pegged
11318.6 0 120.7 19.37 1.198 9.501
0.000 118.7 19.36 9.500
Fit parameter 5 has pegged
11318.5 0 120.7 19.37 1.198 9.501
0.000 118.7 19.36 9.500
Fit parameter 5 has pegged
11318.3 0 120.7 19.37 1.198 9.501
0.000 118.7 19.35 9.500
Fit parameter 5 has pegged
11318.1 0 120.7 19.37 1.198 9.501
0.000 118.7 19.35 9.500
Fit parameter 5 has pegged
11318.0 0 120.7 19.37 1.197 9.501
0.000 118.7 19.35 9.500
Fit parameter 5 has pegged
11317.8 0 120.7 19.37 1.197 9.501
0.000 118.7 19.35 9.500
Fit parameter 5 has pegged
11317.7 0 120.7 19.37 1.197 9.501
0.000 118.7 19.35 9.500
Fit parameter 5 has pegged
11317.6 0 120.7 19.37 1.197 9.501
0.000 118.7 19.35 9.500
Fit parameter 5 has pegged
11317.5 0 120.7 19.37 1.197 9.501
0.000 118.7 19.35 9.500
Fit parameter 5 has pegged
11317.3 0 120.7 19.37 1.197 9.501
0.000 118.7 19.35 9.500
Fit parameter 5 has pegged
11317.3 0 120.7 19.37 1.197 9.501
0.000 118.7 19.34 9.500
Fit parameter 5 has pegged
11317.1 0 120.7 19.37 1.197 9.501
0.000 118.7 19.34 9.500
Fit parameter 5 has pegged
11317.0 0 120.7 19.37 1.197 9.501
0.000 118.7 19.34 9.500
Fit parameter 5 has pegged
11317.0 0 120.7 19.37 1.196 9.501
0.000 118.7 19.34 9.500
Fit parameter 5 has pegged
11316.9 0 120.7 19.37 1.196 9.501
0.000 118.7 19.34 9.500
Fit parameter 5 has pegged
11316.8 0 120.7 19.37 1.196 9.501
0.000 118.7 19.34 9.500
Fit parameter 5 has pegged
11316.7 0 120.8 19.37 1.196 9.501
0.000 118.7 19.34 9.500
Fit parameter 5 has pegged
11316.6 0 120.8 19.37 1.196 9.501
0.000 118.7 19.34 9.500
Fit parameter 5 has pegged
11316.6 0 120.8 19.37 1.196 9.501
0.000 118.7 19.34 9.500
Fit parameter 5 has pegged
11316.5 0 120.8 19.37 1.196 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11316.4 0 120.8 19.37 1.196 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11316.4 0 120.8 19.37 1.196 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11316.3 0 120.8 19.37 1.196 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11316.3 0 120.8 19.37 1.196 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11316.2 0 120.8 19.37 1.196 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11316.2 0 120.8 19.37 1.196 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11316.1 0 120.8 19.37 1.196 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11316.1 0 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11316.0 0 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11316.0 1 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11315.9 0 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11315.9 0 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11315.9 0 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11315.8 1 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11315.8 0 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
11315.8 0 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11315.7 1 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11315.7 1 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
11315.7 3 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
Fit parameter 5 has pegged
11315.7 5 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
11315.7 6 120.8 19.37 1.195 9.501
0.000 118.7 19.33 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.23E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.87E-02 | 0.26 0.00 0.01 -0.96 -0.08
2.30E-02 | -0.96 -0.05 0.01 -0.26 -0.03
3.56E+00 | -0.05 0.95 0.00 -0.04 0.32
1.82E+00 | 0.01 -0.32 0.00 -0.08 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 120.791 +/- 0.177263 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.83699 1
3 3 1 gaussian norm 1.19501 +/- 0.611379E-02 1
4 4 2 powerlaw PhoIndex 9.50149 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 118.735 +/- 0.185624 2
7 7 3 gaussian Sigma keV 19.3278 +/- 1.40785 2
8 3 3 gaussian norm 1.19501 = 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 = 11315.68 using 198 PHA bins.
Reduced chi-squared = 59.55623 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 ( 57.440) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 57.440) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.026 photons ( 2.0684E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9963 photons ( 1.9876E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:05 01-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 3.525 +/- 8.0733E-03
Net count rate (cts/s) for file 2 3.525 +/- 8.0733E-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 = 345633.7 using 168 PHA bins.
Reduced chi-squared = 2160.210 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21109.13 using 168 PHA bins.
Reduced chi-squared = 131.9321 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
11480.1 -3 85.18 13.14 0.1551 1.083
0.8616 85.82 11.74 1.071
1840.27 -4 73.00 11.07 0.1712 0.9890
0.9332 77.65 10.000 0.9946
1006.68 -5 80.70 9.842 0.1754 1.104
1.299 81.27 9.920 1.102
481.834 -6 77.69 9.550 0.1894 1.089
1.293 80.61 9.690 1.090
474.819 -7 78.14 9.134 0.1896 1.093
1.312 80.70 9.758 1.094
474.264 -8 78.06 9.323 0.1915 1.094
1.316 80.69 9.807 1.095
474.193 -9 78.08 9.248 0.1906 1.093
1.313 80.69 9.775 1.094
474.179 -10 78.07 9.279 0.1910 1.093
1.314 80.69 9.790 1.094
474.177 -11 78.08 9.266 0.1908 1.093
1.314 80.69 9.784 1.094
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.03E-06 | 0.00 0.00 -0.28 0.68 -0.24 0.00 0.00 0.63
1.18E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
8.55E-06 | 0.00 0.01 -0.96 -0.19 0.08 0.00 0.01 -0.19
3.11E-03 | 0.06 0.04 -0.01 -0.18 -0.96 0.06 0.04 -0.17
3.33E-02 | -0.17 -0.75 0.00 0.00 -0.01 0.12 0.63 0.00
7.14E-02 | 0.22 -0.58 -0.01 -0.01 -0.02 0.33 -0.71 -0.01
4.74E-02 | 0.94 -0.07 0.00 0.01 0.04 -0.26 0.22 0.01
5.21E-02 | 0.21 0.30 0.00 0.02 0.08 0.90 0.24 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 78.0763 +/- 0.219549 1
2 2 1 gaussian Sigma keV 9.26631 +/- 0.219018 1
3 3 1 gaussian norm 0.190829 +/- 0.408165E-02 1
4 4 2 powerlaw PhoIndex 1.09328 +/- 0.111121E-01 1
5 5 2 powerlaw norm 1.31380 +/- 0.577554E-01 1
6 6 3 gaussian LineE keV 80.6907 +/- 0.231182 2
7 7 3 gaussian Sigma keV 9.78355 +/- 0.232462 2
8 3 3 gaussian norm 0.190829 = par 3 2
9 8 4 powerlaw PhoIndex 1.09435 +/- 0.106820E-01 2
10 5 4 powerlaw norm 1.31380 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 474.1773 using 168 PHA bins.
Reduced chi-squared = 2.963608 for 160 degrees of freedom
Null hypothesis probability = 7.493E-33
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.839) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.839) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.187 photons ( 1.4100E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.183 photons ( 1.4126E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
89.05541
=====best line=====
78.0756 0.219389
=====best sigma=====
9.26927 0.218858
=====norm=====
0.190864 0.407905E-02
=====phoindx=====
1.09331 0.111108E-01
=====pow_norm=====
1.31392 0.577437E-01
=====best line=====
80.6908 0.231150
=====best sigma=====
9.78508 0.232393
=====norm=====
0.190864 par
=====phoindx=====
1.09438 0.106808E-01
=====pow_norm=====
1.31392 par
=====redu_chi=====
2.963608
=====area_flux=====
1.187
=====area_flux_f=====
1.183
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 1 1 640 2000 1249.2096 0 0.190864 0.407905E-02 9.26927 0.218858 1.09331 0.111108E-01 1.31392 0.577437E-01 1.187 640 2000 1291.0528 0 0.190864 0.407905E-02 9.78508 0.232393 1.09438 0.106808E-01 1.31392 0.577437E-01 1.183 2.963608 0
=====redu_chi=====
379.9006
=====best line=====
120.791 0.177263
=====best sigma=====
19.3655 1.83699
=====norm=====
1.19501 0.611379E-02
=====phoindx=====
9.50149 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
118.735 0.185624
=====best sigma=====
19.3278 1.40785
=====norm=====
1.19501 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
59.55623
=====area_flux=====
1.026
=====area_flux_f=====
0.9963
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 1 1 1600 3200 1932.656 0 1.19501 0.611379E-02 309.848 29.39184 9.50149 -1.00000 0.00000 -1.00000 1.026 1600 3200 1899.76 0 1.19501 0.611379E-02 309.2448 22.5256 9.50000 -1.00000 0.00000 -1.00000 0.9963 59.55623 1
=====redu_chi=====
131.9321
=====best line=====
78.0763 0.219549
=====best sigma=====
9.26631 0.219018
=====norm=====
0.190829 0.408165E-02
=====phoindx=====
1.09328 0.111121E-01
=====pow_norm=====
1.31380 0.577554E-01
=====best line=====
80.6907 0.231182
=====best sigma=====
9.78355 0.232462
=====norm=====
0.190829 par
=====phoindx=====
1.09435 0.106820E-01
=====pow_norm=====
1.31380 par
=====redu_chi=====
2.963608
=====area_flux=====
1.187
=====area_flux_f=====
1.183
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 1 1 640 2000 1249.2208 0 0.190829 0.408165E-02 9.26631 0.219018 1.09328 0.111121E-01 1.31380 0.577554E-01 1.187 640 2000 1291.0512 0 0.190829 0.408165E-02 9.78355 0.232462 1.09435 0.106820E-01 1.31380 0.577554E-01 1.183 2.963608 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:05 01-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 3.211 +/- 7.7054E-03
Net count rate (cts/s) for file 2 3.211 +/- 7.7054E-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 = 293225.7 using 168 PHA bins.
Reduced chi-squared = 1832.661 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16610.49 using 168 PHA bins.
Reduced chi-squared = 103.8156 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
9101.21 -3 81.65 16.79 0.2508 1.085
0.8531 82.16 16.57 1.077
1248.00 -3 73.11 7.744 0.1565 0.8744
0.5875 74.68 8.218 0.8854
1137.93 -4 74.90 9.307 0.1945 1.007
0.8544 76.61 10.76 1.006
529.054 -5 75.35 8.908 0.1950 1.042
1.056 77.02 9.894 1.043
465.016 -6 75.22 9.176 0.1998 1.037
1.058 76.86 9.707 1.040
464.875 -7 75.28 9.094 0.1991 1.037
1.060 76.87 9.705 1.040
464.859 -8 75.26 9.123 0.1994 1.037
1.059 76.86 9.716 1.040
464.857 -9 75.26 9.113 0.1993 1.037
1.059 76.87 9.710 1.040
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.77E-07 | 0.00 0.00 -0.27 0.69 -0.29 0.00 0.00 0.61
1.15E-06 | 0.00 0.00 -0.02 -0.67 -0.01 0.00 0.00 0.74
9.06E-06 | 0.00 0.01 -0.96 -0.17 0.09 0.00 0.01 -0.18
1.96E-03 | 0.05 0.01 -0.01 -0.22 -0.95 0.05 0.01 -0.21
3.16E-02 | -0.15 -0.77 0.00 0.00 0.00 0.09 0.61 0.00
6.80E-02 | 0.26 -0.54 -0.01 0.00 0.02 0.43 -0.67 0.00
4.37E-02 | 0.95 -0.01 0.00 0.01 0.04 -0.19 0.25 0.01
4.92E-02 | 0.09 0.34 0.00 0.01 0.05 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 75.2636 +/- 0.212266 1
2 2 1 gaussian Sigma keV 9.11251 +/- 0.210242 1
3 3 1 gaussian norm 0.199269 +/- 0.409051E-02 1
4 4 2 powerlaw PhoIndex 1.03697 +/- 0.104754E-01 1
5 5 2 powerlaw norm 1.05943 +/- 0.446305E-01 1
6 6 3 gaussian LineE keV 76.8651 +/- 0.228567 2
7 7 3 gaussian Sigma keV 9.70996 +/- 0.225371 2
8 3 3 gaussian norm 0.199269 = par 3 2
9 8 4 powerlaw PhoIndex 1.03973 +/- 0.100638E-01 2
10 5 4 powerlaw norm 1.05943 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 464.8575 using 168 PHA bins.
Reduced chi-squared = 2.905359 for 160 degrees of freedom
Null hypothesis probability = 1.666E-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 ( 2.784) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.784) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.220 photons ( 1.4469E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.208 photons ( 1.4377E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:05 01-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 7.242 +/- 1.1572E-02
Net count rate (cts/s) for file 2 7.242 +/- 1.1572E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.031 +/- 1.3903E-02( 55.7% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.031 +/- 1.3903E-02( 55.7% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 7757717. using 198 PHA bins.
Reduced chi-squared = 40830.09 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 55186.46 using 198 PHA bins.
Reduced chi-squared = 290.4550 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
28910.3 -3 117.0 19.12 0.3690 2.813
0.1305 111.7 19.13 2.748
9746.13 -2 108.9 19.35 1.116 9.114
1.5814E-04 114.0 18.90 7.094
9331.61 -2 110.6 19.36 1.213 9.422
7.1156E-05 111.2 19.25 9.110
9245.14 -1 111.1 19.36 1.205 9.472
1.2337E-05 111.2 19.34 9.349
9221.28 -1 111.4 19.36 1.202 9.490
5.8692E-06 111.3 19.36 9.494
9186.55 -1 111.6 19.37 1.196 9.497
2.9111E-06 111.4 19.36 9.498
9162.82 -1 111.7 19.37 1.191 9.498
1.3889E-06 111.5 19.37 9.500
9146.20 -1 111.8 19.37 1.187 9.499
6.2556E-07 111.6 19.37 9.500
8964.88 0 112.3 19.37 1.159 9.500
2.8444E-07 111.6 19.37 9.500
8883.21 0 112.8 19.37 1.142 9.500
1.1438E-07 111.7 19.37 9.500
8846.25 0 113.1 19.37 1.130 9.500
2.9191E-08 111.8 19.37 9.500
8689.24 0 113.7 19.37 1.112 9.500
1.0234E-09 111.9 19.11 9.500
8658.20 0 114.0 19.37 1.100 9.500
8.1138E-11 112.2 19.02 9.500
8650.32 0 114.0 19.37 1.096 9.500
2.4831E-11 112.3 18.99 9.500
8642.54 0 114.1 19.37 1.093 9.500
1.0794E-11 112.4 18.95 9.500
8636.53 0 114.2 19.37 1.090 9.500
3.7804E-12 112.5 18.91 9.500
8632.91 0 114.2 19.37 1.088 9.500
2.7775E-13 112.6 18.89 9.500
Fit parameter 5 has pegged
8536.92 0 114.2 19.37 1.079 9.500
0.000 112.4 18.39 9.500
Fit parameter 5 has pegged
8535.86 -1 113.9 19.37 1.073 9.500
0.000 112.7 18.25 9.500
Fit parameter 5 has pegged
8534.23 -1 113.9 19.37 1.071 9.500
0.000 112.8 18.25 9.500
Fit parameter 5 has pegged
8529.91 0 114.0 19.37 1.069 9.500
0.000 112.8 18.24 9.500
Fit parameter 5 has pegged
8527.27 0 114.1 19.37 1.068 9.500
0.000 112.8 18.23 9.500
Fit parameter 5 has pegged
8525.64 0 114.2 19.37 1.067 9.500
0.000 112.8 18.22 9.500
Fit parameter 5 has pegged
8524.39 0 114.2 19.37 1.065 9.500
0.000 112.9 18.21 9.500
Fit parameter 5 has pegged
8523.61 0 114.2 19.37 1.065 9.500
0.000 112.9 18.20 9.500
Fit parameter 5 has pegged
8523.15 0 114.2 19.37 1.064 9.500
0.000 112.9 18.19 9.500
Fit parameter 5 has pegged
8522.73 0 114.3 19.37 1.063 9.500
0.000 112.9 18.18 9.500
Fit parameter 5 has pegged
8522.36 0 114.3 19.37 1.063 9.500
0.000 112.9 18.18 9.500
Fit parameter 5 has pegged
8521.99 0 114.3 19.37 1.062 9.500
0.000 113.0 18.17 9.500
Fit parameter 5 has pegged
8521.81 0 114.3 19.37 1.062 9.500
0.000 113.0 18.17 9.500
Fit parameter 5 has pegged
8521.77 0 114.3 19.37 1.062 9.500
0.000 113.0 18.17 9.500
Fit parameter 5 has pegged
8521.75 0 114.3 19.37 1.062 9.500
0.000 113.0 18.16 9.500
Fit parameter 5 has pegged
8521.70 0 114.3 19.37 1.061 9.500
0.000 113.0 18.16 9.500
Fit parameter 5 has pegged
8521.64 0 114.3 19.37 1.061 9.500
0.000 113.0 18.16 9.500
Fit parameter 5 has pegged
8521.59 0 114.3 19.37 1.061 9.500
0.000 113.0 18.16 9.500
Fit parameter 5 has pegged
8521.43 0 114.3 19.37 1.061 9.500
0.000 113.0 18.16 9.500
Fit parameter 5 has pegged
8521.34 0 114.3 19.37 1.061 9.500
0.000 113.0 18.16 9.500
Fit parameter 5 has pegged
8521.32 0 114.3 19.37 1.061 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8521.24 0 114.3 19.37 1.061 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8521.04 0 114.3 19.37 1.061 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.88 0 114.3 19.37 1.060 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.74 0 114.4 19.37 1.060 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.69 0 114.4 19.37 1.060 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.55 0 114.4 19.37 1.060 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.51 0 114.4 19.37 1.060 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.40 0 114.4 19.37 1.060 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.33 0 114.4 19.37 1.060 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.27 0 114.4 19.37 1.060 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.20 0 114.4 19.37 1.059 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.16 0 114.4 19.37 1.059 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.08 0 114.4 19.37 1.059 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8520.05 0 114.4 19.37 1.059 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8519.98 0 114.4 19.37 1.059 9.500
0.000 113.0 18.15 9.500
Fit parameter 5 has pegged
8519.97 3 114.4 19.37 1.059 9.500
0.000 113.0 18.15 9.500
8519.97 5 114.4 19.37 1.059 9.500
0.000 113.0 18.15 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.33E-05 | -0.01 0.00 -1.00 -0.01 0.01
1.34E-02 | 0.03 0.00 0.00 -0.69 -0.72
2.75E-02 | -0.98 -0.07 0.01 0.12 -0.16
7.36E-02 | 0.19 0.07 -0.01 0.71 -0.67
3.72E+00 | -0.09 1.00 0.00 -0.04 0.03
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 114.431 +/- 0.238342 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.91866 1
3 3 1 gaussian norm 1.05906 +/- 0.720331E-02 1
4 4 2 powerlaw PhoIndex 9.50002 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.029 +/- 0.221722 2
7 7 3 gaussian Sigma keV 18.1493 +/- 0.211894 2
8 3 3 gaussian norm 1.05906 = 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 = 8519.974 using 198 PHA bins.
Reduced chi-squared = 44.84196 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 ( 43.249) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 43.249) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 0.8174 photons ( 1.5980E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8086 photons ( 1.5593E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:05 01-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 3.211 +/- 7.7054E-03
Net count rate (cts/s) for file 2 3.211 +/- 7.7054E-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 = 356979.9 using 168 PHA bins.
Reduced chi-squared = 2231.125 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 25303.35 using 168 PHA bins.
Reduced chi-squared = 158.1460 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
18030.4 -3 85.15 14.63 0.1733 1.134
0.9394 85.27 14.13 1.121
3347.39 -4 68.97 16.92 0.2447 0.9529
0.8084 71.26 16.16 0.9656
2175.08 -2 80.01 4.250 0.1113 0.9922
0.9074 79.55 7.049 0.9908
935.718 -3 78.56 7.465 0.1469 1.031
1.057 77.27 9.085 1.032
694.190 -4 75.34 12.17 0.1996 1.049
1.111 76.81 10.04 1.051
524.814 -5 76.10 9.548 0.1839 1.040
1.090 77.05 9.781 1.043
465.025 -6 75.21 9.153 0.1995 1.037
1.060 76.85 9.712 1.040
464.868 -7 75.27 9.097 0.1991 1.037
1.060 76.87 9.705 1.040
464.858 -8 75.26 9.122 0.1994 1.037
1.059 76.86 9.715 1.040
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.77E-07 | 0.00 0.00 -0.27 0.69 -0.29 0.00 0.00 0.61
1.15E-06 | 0.00 0.00 -0.02 -0.67 -0.01 0.00 0.00 0.74
9.03E-06 | 0.00 0.01 -0.96 -0.17 0.09 0.00 0.01 -0.18
1.96E-03 | 0.05 0.01 -0.01 -0.22 -0.95 0.05 0.01 -0.21
3.15E-02 | -0.15 -0.77 0.00 0.00 0.00 0.09 0.61 0.00
6.77E-02 | 0.26 -0.54 -0.01 0.00 0.02 0.43 -0.68 0.00
4.35E-02 | 0.95 -0.01 0.00 0.01 0.04 -0.19 0.25 0.01
4.92E-02 | 0.09 0.34 0.00 0.01 0.05 0.88 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 75.2580 +/- 0.211694 1
2 2 1 gaussian Sigma keV 9.12180 +/- 0.209616 1
3 3 1 gaussian norm 0.199387 +/- 0.408136E-02 1
4 4 2 powerlaw PhoIndex 1.03695 +/- 0.104688E-01 1
5 5 2 powerlaw norm 1.05925 +/- 0.446184E-01 1
6 6 3 gaussian LineE keV 76.8634 +/- 0.228524 2
7 7 3 gaussian Sigma keV 9.71498 +/- 0.225218 2
8 3 3 gaussian norm 0.199387 = par 3 2
9 8 4 powerlaw PhoIndex 1.03971 +/- 0.100575E-01 2
10 5 4 powerlaw norm 1.05925 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 464.8585 using 168 PHA bins.
Reduced chi-squared = 2.905365 for 160 degrees of freedom
Null hypothesis probability = 1.666E-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 ( 2.784) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.784) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.220 photons ( 1.4469E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.208 photons ( 1.4377E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
103.8156
=====best line=====
75.2636 0.212266
=====best sigma=====
9.11251 0.210242
=====norm=====
0.199269 0.409051E-02
=====phoindx=====
1.03697 0.104754E-01
=====pow_norm=====
1.05943 0.446305E-01
=====best line=====
76.8651 0.228567
=====best sigma=====
9.70996 0.225371
=====norm=====
0.199269 par
=====phoindx=====
1.03973 0.100638E-01
=====pow_norm=====
1.05943 par
=====redu_chi=====
2.905359
=====area_flux=====
1.220
=====area_flux_f=====
1.208
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 2 1 640 2000 1204.2176 0 0.199269 0.409051E-02 9.11251 0.210242 1.03697 0.104754E-01 1.05943 0.446305E-01 1.220 640 2000 1229.8416 0 0.199269 0.409051E-02 9.70996 0.225371 1.03973 0.100638E-01 1.05943 0.446305E-01 1.208 2.905359 0
=====redu_chi=====
290.4550
=====best line=====
114.431 0.238342
=====best sigma=====
19.3655 1.91866
=====norm=====
1.05906 0.720331E-02
=====phoindx=====
9.50002 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.029 0.221722
=====best sigma=====
18.1493 0.211894
=====norm=====
1.05906 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
44.84196
=====area_flux=====
0.8174
=====area_flux_f=====
0.8086
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 2 1 1600 3200 1830.896 0 1.05906 0.720331E-02 309.848 30.69856 9.50002 -1.00000 0.00000 -1.00000 0.8174 1600 3200 1808.464 0 1.05906 0.720331E-02 290.3888 3.390304 9.50000 -1.00000 0.00000 -1.00000 0.8086 44.84196 1
=====redu_chi=====
158.1460
=====best line=====
75.2580 0.211694
=====best sigma=====
9.12180 0.209616
=====norm=====
0.199387 0.408136E-02
=====phoindx=====
1.03695 0.104688E-01
=====pow_norm=====
1.05925 0.446184E-01
=====best line=====
76.8634 0.228524
=====best sigma=====
9.71498 0.225218
=====norm=====
0.199387 par
=====phoindx=====
1.03971 0.100575E-01
=====pow_norm=====
1.05925 par
=====redu_chi=====
2.905365
=====area_flux=====
1.220
=====area_flux_f=====
1.208
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 2 1 640 2000 1204.128 0 0.199387 0.408136E-02 9.12180 0.209616 1.03695 0.104688E-01 1.05925 0.446184E-01 1.220 640 2000 1229.8144 0 0.199387 0.408136E-02 9.71498 0.225218 1.03971 0.100575E-01 1.05925 0.446184E-01 1.208 2.905365 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:06 01-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 3.250 +/- 7.7523E-03
Net count rate (cts/s) for file 2 3.250 +/- 7.7523E-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 = 318236.2 using 168 PHA bins.
Reduced chi-squared = 1988.977 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 19552.18 using 168 PHA bins.
Reduced chi-squared = 122.2011 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
14195.9 -3 81.22 17.13 0.2368 1.134
0.9183 81.50 16.84 1.120
1844.05 -3 68.67 9.550 0.1910 0.8696
0.5637 71.07 9.075 0.8836
1767.60 -3 73.43 9.279 0.1889 1.024
0.8754 74.92 10.83 1.020
768.670 -4 73.13 8.657 0.1905 1.087
1.216 75.70 9.806 1.084
423.993 -5 73.05 8.921 0.1957 1.077
1.243 75.46 9.258 1.077
423.611 -6 73.09 8.867 0.1958 1.077
1.246 75.49 9.341 1.078
423.603 -7 73.08 8.882 0.1959 1.077
1.246 75.49 9.335 1.078
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.00E-06 | 0.00 0.00 -0.27 0.68 -0.25 0.00 0.00 0.64
1.16E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
8.83E-06 | 0.00 0.01 -0.96 -0.18 0.08 0.00 0.01 -0.19
2.61E-03 | 0.06 0.00 0.00 -0.19 -0.96 0.06 0.01 -0.18
3.01E-02 | -0.17 -0.76 0.00 0.00 0.00 0.10 0.62 0.00
6.50E-02 | -0.31 0.54 0.01 0.00 -0.04 -0.44 0.65 0.00
4.22E-02 | -0.93 -0.04 0.00 -0.01 -0.05 0.14 -0.33 -0.01
4.54E-02 | 0.00 0.36 0.00 0.01 0.05 0.88 0.30 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 73.0782 +/- 0.209696 1
2 2 1 gaussian Sigma keV 8.88199 +/- 0.205786 1
3 3 1 gaussian norm 0.195871 +/- 0.398486E-02 1
4 4 2 powerlaw PhoIndex 1.07726 +/- 0.103407E-01 1
5 5 2 powerlaw norm 1.24553 +/- 0.521122E-01 1
6 6 3 gaussian LineE keV 75.4867 +/- 0.220918 2
7 7 3 gaussian Sigma keV 9.33545 +/- 0.217577 2
8 3 3 gaussian norm 0.195871 = par 3 2
9 8 4 powerlaw PhoIndex 1.07803 +/- 0.993052E-02 2
10 5 4 powerlaw norm 1.24553 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 423.6029 using 168 PHA bins.
Reduced chi-squared = 2.647518 for 160 degrees of freedom
Null hypothesis probability = 1.031E-25
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.537) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.537) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.207 photons ( 1.4199E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.204 photons ( 1.4234E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:06 01-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 7.679 +/- 1.1916E-02
Net count rate (cts/s) for file 2 7.679 +/- 1.1916E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.429 +/- 1.4216E-02( 57.7% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.429 +/- 1.4216E-02( 57.7% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 7762380. using 198 PHA bins.
Reduced chi-squared = 40854.63 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 65647.75 using 198 PHA bins.
Reduced chi-squared = 345.5145 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
33786.6 -3 117.5 19.17 0.4156 2.782
0.1375 113.5 19.17 2.717
33735.4 2 117.6 19.17 0.4163 2.662
0.1914 113.5 19.16 2.675
33222.6 1 117.6 19.13 0.4234 2.255
0.5411 113.6 19.12 2.466
28717.2 0 118.3 18.44 0.4864 2.201
0.7455 114.5 18.33 2.422
20795.1 0 119.6 15.57 0.7826 2.388
4.9206E-02 117.5 9.477 3.233
20794.0 3 119.6 15.57 0.7826 2.385
4.9919E-02 117.5 9.477 3.004
20781.5 2 119.6 15.57 0.7826 2.359
5.7157E-02 117.5 9.482 2.292
20665.9 1 119.6 15.60 0.7827 2.173
0.1020 117.5 9.528 2.166
19684.1 0 119.7 15.86 0.7849 1.933
0.2555 117.3 9.950 1.873
13975.0 0 119.5 17.04 0.8404 2.109
0.2490 116.6 17.60 1.827
10759.4 -1 116.0 18.75 1.121 6.283
6.1034E-02 114.6 17.98 2.205
10737.8 -1 114.6 19.26 1.192 9.494
2.5384E-02 113.7 18.45 8.372
10707.7 0 114.6 19.29 1.190 9.499
9.4441E-03 113.6 18.41 9.207
10686.3 0 114.6 19.31 1.188 9.500
4.3342E-03 113.6 18.38 9.497
10670.2 0 114.6 19.33 1.187 9.500
8.2720E-04 113.5 18.36 9.498
10658.2 0 114.5 19.35 1.185 9.500
2.4887E-04 113.5 18.34 9.500
10649.3 0 114.5 19.36 1.184 9.500
9.6783E-05 113.4 18.32 9.500
10642.6 0 114.5 19.36 1.183 9.500
2.0146E-05 113.4 18.30 9.500
10637.5 0 114.5 19.36 1.182 9.500
9.7990E-07 113.4 18.29 9.500
10633.6 0 114.5 19.37 1.182 9.500
3.8350E-07 113.3 18.28 9.500
10627.8 0 114.5 19.37 1.180 9.500
1.0568E-08 113.3 18.27 9.500
10622.8 0 114.4 19.37 1.179 9.500
4.3309E-10 113.3 18.25 9.500
10620.3 0 114.4 19.37 1.179 9.500
1.2317E-10 113.3 18.24 9.500
10618.5 0 114.4 19.37 1.178 9.500
4.6104E-11 113.2 18.23 9.500
10617.2 0 114.4 19.37 1.178 9.500
7.7415E-12 113.2 18.22 9.500
10616.1 0 114.4 19.37 1.177 9.500
2.9634E-12 113.2 18.22 9.500
10615.3 0 114.4 19.37 1.177 9.500
5.8110E-13 113.2 18.21 9.500
10614.6 0 114.4 19.37 1.177 9.500
2.8400E-13 113.2 18.21 9.500
10614.1 0 114.4 19.37 1.177 9.500
1.3585E-13 113.2 18.20 9.500
10613.7 0 114.4 19.37 1.176 9.500
6.1910E-14 113.2 18.20 9.500
Fit parameter 5 has pegged
10609.6 0 114.3 19.37 1.175 9.500
0.000 113.1 18.14 9.500
Fit parameter 5 has pegged
10609.5 0 114.3 19.37 1.175 9.500
0.000 113.1 18.12 9.500
Fit parameter 5 has pegged
10609.4 0 114.3 19.37 1.175 9.500
0.000 113.1 18.12 9.500
Fit parameter 5 has pegged
10609.4 3 114.3 19.37 1.175 9.500
0.000 113.1 18.12 9.500
10609.4 3 114.3 19.37 1.175 9.500
0.000 113.1 18.12 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.43E-05 | -0.01 0.00 -1.00 -0.01 0.01
1.07E-02 | 0.03 0.00 0.00 -0.67 -0.74
2.27E-02 | -0.98 -0.08 0.01 0.13 -0.16
6.00E-02 | 0.20 0.07 -0.01 0.73 -0.65
3.11E+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 114.262 +/- 0.221868 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.75370 1
3 3 1 gaussian norm 1.17473 +/- 0.737470E-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 113.130 +/- 0.203779 2
7 7 3 gaussian Sigma keV 18.1210 +/- 0.187023 2
8 3 3 gaussian norm 1.17473 = 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 = 10609.42 using 198 PHA bins.
Reduced chi-squared = 55.83908 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 ( 53.855) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 53.855) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 0.9036 photons ( 1.7651E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8993 photons ( 1.7348E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:06 01-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 3.250 +/- 7.7523E-03
Net count rate (cts/s) for file 2 3.250 +/- 7.7523E-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 = 392379.5 using 168 PHA bins.
Reduced chi-squared = 2452.372 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 28946.21 using 168 PHA bins.
Reduced chi-squared = 180.9138 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
27384.1 -3 85.20 14.97 0.1504 1.194
1.012 84.98 14.35 1.173
7049.60 -4 62.98 18.41 0.2705 0.9912
1.023 66.13 17.55 1.009
4122.82 -2 79.09 3.577 0.1550 1.038
1.050 78.05 5.348 1.037
1723.99 -3 78.28 5.053 0.1205 1.076
1.278 77.25 6.763 1.074
692.847 -4 75.93 8.247 0.1588 1.097
1.387 76.00 8.844 1.097
452.532 -5 72.84 9.772 0.1979 1.084
1.277 75.44 9.556 1.085
428.690 -6 73.29 8.524 0.1916 1.079
1.260 75.53 9.180 1.080
424.070 -7 73.03 8.993 0.1971 1.077
1.244 75.48 9.391 1.078
423.660 -8 73.10 8.840 0.1953 1.077
1.247 75.49 9.314 1.078
423.609 -9 73.07 8.892 0.1960 1.077
1.245 75.49 9.342 1.078
423.603 -10 73.08 8.874 0.1958 1.077
1.246 75.49 9.333 1.078
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.00E-06 | 0.00 0.00 -0.27 0.68 -0.25 0.00 0.00 0.63
1.16E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
8.85E-06 | 0.00 0.01 -0.96 -0.18 0.08 0.00 0.01 -0.19
2.61E-03 | 0.06 0.00 0.00 -0.19 -0.96 0.06 0.01 -0.18
3.02E-02 | -0.16 -0.76 0.00 0.00 0.00 0.10 0.63 0.00
6.52E-02 | 0.32 -0.54 -0.01 0.00 0.04 0.43 -0.64 0.00
4.24E-02 | -0.93 -0.05 0.00 -0.01 -0.05 0.14 -0.33 -0.01
4.54E-02 | -0.01 -0.36 0.00 -0.01 -0.05 -0.88 -0.30 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 73.0824 +/- 0.210350 1
2 2 1 gaussian Sigma keV 8.87390 +/- 0.206443 1
3 3 1 gaussian norm 0.195781 +/- 0.399154E-02 1
4 4 2 powerlaw PhoIndex 1.07729 +/- 0.103446E-01 1
5 5 2 powerlaw norm 1.24575 +/- 0.521068E-01 1
6 6 3 gaussian LineE keV 75.4875 +/- 0.220720 2
7 7 3 gaussian Sigma keV 9.33263 +/- 0.217493 2
8 3 3 gaussian norm 0.195781 = par 3 2
9 8 4 powerlaw PhoIndex 1.07805 +/- 0.993429E-02 2
10 5 4 powerlaw norm 1.24575 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 423.6029 using 168 PHA bins.
Reduced chi-squared = 2.647518 for 160 degrees of freedom
Null hypothesis probability = 1.031E-25
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.537) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.537) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.207 photons ( 1.4198E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.204 photons ( 1.4234E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
122.2011
=====best line=====
73.0782 0.209696
=====best sigma=====
8.88199 0.205786
=====norm=====
0.195871 0.398486E-02
=====phoindx=====
1.07726 0.103407E-01
=====pow_norm=====
1.24553 0.521122E-01
=====best line=====
75.4867 0.220918
=====best sigma=====
9.33545 0.217577
=====norm=====
0.195871 par
=====phoindx=====
1.07803 0.993052E-02
=====pow_norm=====
1.24553 par
=====redu_chi=====
2.647518
=====area_flux=====
1.207
=====area_flux_f=====
1.204
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 3 1 640 2000 1169.2512 0 0.195871 0.398486E-02 8.88199 0.205786 1.07726 0.103407E-01 1.24553 0.521122E-01 1.207 640 2000 1207.7872 0 0.195871 0.398486E-02 9.33545 0.217577 1.07803 0.993052E-02 1.24553 0.521122E-01 1.204 2.647518 0
=====redu_chi=====
345.5145
=====best line=====
114.262 0.221868
=====best sigma=====
19.3655 1.75370
=====norm=====
1.17473 0.737470E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.130 0.203779
=====best sigma=====
18.1210 0.187023
=====norm=====
1.17473 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
55.83908
=====area_flux=====
0.9036
=====area_flux_f=====
0.8993
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 3 1 1600 3200 1828.192 0 1.17473 0.737470E-02 309.848 28.0592 9.50000 -1.00000 0.00000 -1.00000 0.9036 1600 3200 1810.08 0 1.17473 0.737470E-02 289.936 2.992368 9.50000 -1.00000 0.00000 -1.00000 0.8993 55.83908 1
=====redu_chi=====
180.9138
=====best line=====
73.0824 0.210350
=====best sigma=====
8.87390 0.206443
=====norm=====
0.195781 0.399154E-02
=====phoindx=====
1.07729 0.103446E-01
=====pow_norm=====
1.24575 0.521068E-01
=====best line=====
75.4875 0.220720
=====best sigma=====
9.33263 0.217493
=====norm=====
0.195781 par
=====phoindx=====
1.07805 0.993429E-02
=====pow_norm=====
1.24575 par
=====redu_chi=====
2.647518
=====area_flux=====
1.207
=====area_flux_f=====
1.204
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 3 1 640 2000 1169.3184 0 0.195781 0.399154E-02 8.87390 0.206443 1.07729 0.103446E-01 1.24575 0.521068E-01 1.207 640 2000 1207.8 0 0.195781 0.399154E-02 9.33263 0.217493 1.07805 0.993429E-02 1.24575 0.521068E-01 1.204 2.647518 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:06 01-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 3.101 +/- 7.5732E-03
Net count rate (cts/s) for file 2 3.101 +/- 7.5732E-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 = 215064.7 using 168 PHA bins.
Reduced chi-squared = 1344.154 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 7037.161 using 168 PHA bins.
Reduced chi-squared = 43.98225 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
886.833 -3 86.79 12.46 0.1688 0.8942
0.6108 88.08 11.76 0.8903
687.398 -4 83.71 10.66 0.1984 0.9666
0.7806 86.76 11.04 0.9640
535.148 -5 84.32 10.69 0.2000 0.9742
0.8382 87.02 11.25 0.9741
533.650 -6 84.33 10.82 0.2017 0.9763
0.8479 87.04 11.29 0.9767
533.617 -7 84.36 10.79 0.2012 0.9758
0.8471 87.05 11.27 0.9763
533.615 -8 84.35 10.81 0.2015 0.9762
0.8480 87.04 11.28 0.9766
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.98E-07 | 0.00 0.00 -0.26 0.65 -0.36 0.00 0.00 0.62
1.11E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.93E-06 | 0.00 0.05 -0.96 -0.16 0.13 0.00 0.04 -0.16
1.19E-03 | 0.02 0.82 0.01 -0.09 -0.34 0.01 -0.44 -0.09
1.29E-03 | -0.03 -0.01 0.00 0.21 0.71 -0.03 -0.64 0.20
4.21E-03 | 0.02 -0.57 -0.07 -0.16 -0.48 0.02 -0.62 -0.15
6.41E-02 | -0.89 0.01 0.00 0.00 -0.02 0.45 -0.01 0.00
7.55E-02 | 0.45 0.00 0.00 0.01 0.05 0.89 0.00 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 84.3494 +/- 0.257587 1
2 2 1 gaussian Sigma keV 10.8074 +/- 0.465131E-01 1
3 3 1 gaussian norm 0.201524 +/- 0.561105E-02 1
4 4 2 powerlaw PhoIndex 0.976181 +/- 0.135533E-01 1
5 5 2 powerlaw norm 0.848015 +/- 0.441802E-01 1
6 6 3 gaussian LineE keV 87.0440 +/- 0.270255 2
7 7 3 gaussian Sigma keV 11.2785 +/- 0.490177E-01 2
8 3 3 gaussian norm 0.201524 = par 3 2
9 8 4 powerlaw PhoIndex 0.976642 +/- 0.130310E-01 2
10 5 4 powerlaw norm 0.848015 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 533.6155 using 168 PHA bins.
Reduced chi-squared = 3.335097 for 160 degrees of freedom
Null hypothesis probability = 9.918E-42
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.195) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.195) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.260 photons ( 1.5309E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.257 photons ( 1.5369E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:06 01-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 7.440 +/- 1.1729E-02
Net count rate (cts/s) for file 2 7.440 +/- 1.1729E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.338 +/- 1.3962E-02( 58.3% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.338 +/- 1.3962E-02( 58.3% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 1389112. using 198 PHA bins.
Reduced chi-squared = 7311.116 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 87668.99 using 198 PHA bins.
Reduced chi-squared = 461.4157 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
47606.2 -3 124.5 18.88 0.5585 2.772
0.9257 127.5 18.73 2.913
46930.7 2 124.5 18.88 0.5593 2.031
3.302 127.5 18.73 2.656
46078.8 1 124.6 18.84 0.5672 1.997
3.917 127.6 18.70 2.491
38300.6 0 125.6 18.59 0.6366 1.809
7.934 128.2 18.50 2.059
22947.1 0 127.4 19.32 0.9739 1.761
9.073 129.3 19.23 2.126
20286.7 -1 124.3 19.36 1.589 1.809
5.359 126.1 19.34 2.785
19594.6 0 124.3 19.37 1.547 1.810
5.430 126.2 19.36 8.577
19228.5 0 124.3 19.37 1.521 1.807
5.622 126.3 19.36 9.363
19025.8 0 124.4 19.37 1.506 1.805
5.828 126.4 19.37 9.472
18893.7 0 124.5 19.37 1.496 1.805
5.981 126.6 19.37 9.498
18800.2 0 124.6 19.37 1.489 1.807
6.065 126.7 19.37 9.499
18743.9 0 124.6 19.37 1.485 1.809
6.173 126.8 19.37 9.500
18705.7 0 124.7 19.37 1.482 1.812
6.265 126.8 19.37 9.500
18676.5 0 124.8 19.37 1.481 1.814
6.373 126.9 19.37 9.500
18653.9 0 124.8 19.37 1.479 1.816
6.481 126.9 19.37 9.500
18642.0 0 124.8 19.37 1.478 1.818
6.589 127.0 19.37 9.500
18629.5 0 124.9 19.37 1.478 1.820
6.693 127.0 19.37 9.500
18618.9 0 124.9 19.37 1.477 1.822
6.794 127.0 19.37 9.500
18614.9 0 124.9 19.37 1.477 1.827
6.833 127.0 19.37 9.500
18608.7 0 124.9 19.37 1.477 1.829
6.957 127.0 19.37 9.500
18600.7 0 124.9 19.37 1.476 1.833
7.004 127.0 19.37 9.500
18592.5 0 125.0 19.37 1.475 1.836
7.094 127.1 19.37 9.500
18587.7 0 125.0 19.37 1.475 1.839
7.201 127.1 19.37 9.500
18584.9 0 125.0 19.37 1.475 1.840
7.334 127.1 19.37 9.500
18583.6 0 125.0 19.37 1.475 1.844
7.423 127.1 19.37 9.500
18497.2 0 125.1 19.37 1.467 1.844
7.439 127.1 19.37 9.500
18421.9 0 125.1 19.37 1.459 1.843
7.461 127.2 19.37 9.500
18297.8 0 125.3 19.37 1.445 1.842
7.523 127.3 19.37 9.500
18246.5 0 125.3 19.37 1.439 1.842
7.561 127.3 19.37 9.500
18201.1 0 125.4 19.37 1.433 1.841
7.599 127.3 19.37 9.500
18160.6 0 125.5 19.37 1.428 1.840
7.636 127.4 19.37 9.500
18124.3 0 125.5 19.37 1.423 1.840
7.675 127.4 19.37 9.500
18092.0 0 125.6 19.37 1.419 1.839
7.714 127.5 19.37 9.500
18062.9 0 125.6 19.37 1.414 1.839
7.750 127.5 19.37 9.500
18037.0 0 125.7 19.37 1.411 1.838
7.785 127.5 19.37 9.500
18013.6 0 125.8 19.37 1.407 1.838
7.821 127.6 19.37 9.500
17992.3 0 125.8 19.37 1.404 1.837
7.856 127.6 19.37 9.500
17973.1 0 125.9 19.37 1.401 1.837
7.888 127.7 19.37 9.500
17955.7 0 125.9 19.37 1.398 1.836
7.921 127.7 19.37 9.500
17940.0 0 126.0 19.37 1.395 1.836
7.954 127.7 19.37 9.500
17925.6 0 126.0 19.37 1.393 1.836
7.983 127.8 19.37 9.500
17912.6 0 126.1 19.37 1.391 1.835
8.014 127.8 19.37 9.500
17900.8 0 126.1 19.37 1.388 1.835
8.042 127.8 19.37 9.500
17889.9 0 126.2 19.37 1.386 1.835
8.068 127.8 19.37 9.500
17879.9 0 126.2 19.37 1.385 1.835
8.094 127.9 19.37 9.500
17870.7 0 126.3 19.37 1.383 1.835
8.117 127.9 19.37 9.500
17862.4 0 126.3 19.37 1.381 1.835
8.139 127.9 19.37 9.500
17854.6 0 126.4 19.37 1.380 1.835
8.160 128.0 19.37 9.500
17847.6 0 126.4 19.37 1.378 1.835
8.185 128.0 19.37 9.500
17841.1 0 126.4 19.37 1.377 1.835
8.205 128.0 19.37 9.500
17835.1 0 126.5 19.37 1.376 1.835
8.224 128.0 19.37 9.500
17829.5 0 126.5 19.37 1.374 1.835
8.244 128.0 19.37 9.500
17824.4 0 126.5 19.37 1.373 1.835
8.262 128.1 19.37 9.500
17819.7 0 126.6 19.37 1.372 1.835
8.282 128.1 19.37 9.500
17815.3 0 126.6 19.37 1.371 1.835
8.298 128.1 19.37 9.500
17811.3 0 126.6 19.37 1.371 1.835
8.315 128.1 19.37 9.500
17807.5 0 126.7 19.37 1.370 1.835
8.333 128.1 19.37 9.500
17804.0 0 126.7 19.37 1.369 1.836
8.349 128.2 19.37 9.500
17800.9 0 126.7 19.37 1.368 1.836
8.366 128.2 19.37 9.500
17797.9 0 126.7 19.37 1.367 1.836
8.383 128.2 19.37 9.500
17795.0 0 126.8 19.37 1.367 1.836
8.397 128.2 19.37 9.500
17792.5 0 126.8 19.37 1.366 1.836
8.413 128.2 19.37 9.500
17790.0 0 126.8 19.37 1.366 1.836
8.430 128.2 19.37 9.500
17787.8 0 126.8 19.37 1.365 1.836
8.446 128.2 19.37 9.500
17785.6 0 126.9 19.37 1.365 1.837
8.461 128.2 19.37 9.500
17783.6 0 126.9 19.37 1.364 1.837
8.474 128.3 19.37 9.500
17781.8 0 126.9 19.37 1.364 1.837
8.488 128.3 19.37 9.500
17780.1 0 126.9 19.37 1.363 1.837
8.501 128.3 19.37 9.500
17778.5 0 126.9 19.37 1.363 1.838
8.515 128.3 19.37 9.500
17777.0 0 127.0 19.37 1.362 1.838
8.530 128.3 19.37 9.500
17775.6 0 127.0 19.37 1.362 1.838
8.543 128.3 19.37 9.500
17774.2 0 127.0 19.37 1.362 1.838
8.557 128.3 19.37 9.500
17773.0 0 127.0 19.37 1.361 1.839
8.571 128.3 19.37 9.500
17771.8 0 127.0 19.37 1.361 1.839
8.585 128.3 19.37 9.500
17770.7 0 127.0 19.37 1.361 1.839
8.600 128.3 19.37 9.500
17769.6 0 127.1 19.37 1.360 1.839
8.611 128.3 19.37 9.500
17768.6 0 127.1 19.37 1.360 1.840
8.623 128.4 19.37 9.500
17767.7 0 127.1 19.37 1.360 1.840
8.638 128.4 19.37 9.500
17766.9 0 127.1 19.37 1.360 1.840
8.653 128.4 19.37 9.500
17766.0 0 127.1 19.37 1.360 1.840
8.668 128.4 19.37 9.500
17765.2 0 127.1 19.37 1.359 1.841
8.683 128.4 19.37 9.500
17764.4 0 127.1 19.37 1.359 1.841
8.695 128.4 19.37 9.500
17763.8 0 127.1 19.37 1.359 1.841
8.706 128.4 19.37 9.500
17763.2 0 127.1 19.37 1.359 1.841
8.718 128.4 19.37 9.500
17762.5 0 127.2 19.37 1.359 1.842
8.733 128.4 19.37 9.500
17761.9 0 127.2 19.37 1.358 1.842
8.748 128.4 19.37 9.500
17761.4 0 127.2 19.37 1.358 1.842
8.763 128.4 19.37 9.500
17760.8 0 127.2 19.37 1.358 1.842
8.778 128.4 19.37 9.500
17760.2 0 127.2 19.37 1.358 1.843
8.792 128.4 19.37 9.500
17759.8 0 127.2 19.37 1.358 1.843
8.804 128.4 19.37 9.500
17759.3 0 127.2 19.37 1.358 1.843
8.816 128.4 19.37 9.500
17758.9 0 127.2 19.37 1.358 1.844
8.828 128.4 19.37 9.500
17758.4 0 127.2 19.37 1.357 1.844
8.840 128.4 19.37 9.500
17758.0 0 127.2 19.37 1.357 1.844
8.853 128.4 19.37 9.500
17757.6 0 127.2 19.37 1.357 1.844
8.866 128.4 19.37 9.500
17757.3 0 127.2 19.37 1.357 1.845
8.880 128.4 19.37 9.500
17756.9 0 127.2 19.37 1.357 1.845
8.892 128.4 19.37 9.500
17756.5 0 127.3 19.37 1.357 1.845
8.906 128.4 19.37 9.500
17756.2 0 127.3 19.37 1.357 1.846
8.920 128.4 19.37 9.500
17755.9 0 127.3 19.37 1.357 1.846
8.933 128.4 19.37 9.500
17755.6 0 127.3 19.37 1.357 1.846
8.947 128.4 19.37 9.500
17755.3 0 127.3 19.37 1.357 1.846
8.961 128.4 19.37 9.500
17755.0 0 127.3 19.37 1.357 1.847
8.975 128.4 19.37 9.500
17754.7 0 127.3 19.37 1.356 1.847
8.989 128.5 19.37 9.500
17754.5 0 127.3 19.37 1.356 1.847
9.002 128.5 19.37 9.500
17754.3 0 127.3 19.37 1.356 1.848
9.016 128.5 19.37 9.500
17754.0 0 127.3 19.37 1.356 1.848
9.030 128.5 19.37 9.500
17753.7 0 127.3 19.37 1.356 1.848
9.044 128.5 19.37 9.500
17753.5 0 127.3 19.37 1.356 1.848
9.058 128.5 19.37 9.500
17753.3 0 127.3 19.37 1.356 1.849
9.072 128.5 19.37 9.500
17753.1 0 127.3 19.37 1.356 1.849
9.087 128.5 19.37 9.500
17752.9 0 127.3 19.37 1.356 1.849
9.098 128.5 19.37 9.500
17752.6 0 127.3 19.37 1.356 1.849
9.113 128.5 19.37 9.500
17752.5 0 127.3 19.37 1.356 1.850
9.127 128.5 19.37 9.500
17752.3 0 127.3 19.37 1.356 1.850
9.141 128.5 19.37 9.500
17752.1 0 127.3 19.37 1.356 1.850
9.155 128.5 19.37 9.500
17751.9 0 127.3 19.37 1.356 1.851
9.169 128.5 19.37 9.500
17751.8 0 127.3 19.37 1.356 1.851
9.184 128.5 19.37 9.500
17751.6 0 127.3 19.37 1.356 1.851
9.198 128.5 19.37 9.500
17751.5 0 127.3 19.37 1.356 1.851
9.213 128.5 19.37 9.500
17751.3 0 127.3 19.37 1.356 1.852
9.228 128.5 19.37 9.500
17751.2 0 127.3 19.37 1.356 1.852
9.241 128.5 19.37 9.500
17751.0 0 127.3 19.37 1.356 1.852
9.256 128.5 19.37 9.500
17750.9 0 127.3 19.37 1.356 1.853
9.271 128.5 19.37 9.500
17750.7 0 127.3 19.37 1.356 1.853
9.282 128.5 19.37 9.500
17750.5 0 127.3 19.37 1.355 1.853
9.293 128.5 19.37 9.500
17750.4 0 127.4 19.37 1.355 1.853
9.309 128.5 19.37 9.500
17750.3 0 127.4 19.37 1.355 1.854
9.321 128.5 19.37 9.500
17750.2 0 127.4 19.37 1.355 1.854
9.336 128.5 19.37 9.500
17750.0 0 127.4 19.37 1.355 1.854
9.348 128.5 19.37 9.500
17749.9 0 127.4 19.37 1.355 1.855
9.363 128.5 19.37 9.500
17749.8 0 127.4 19.37 1.355 1.855
9.379 128.5 19.37 9.500
17749.7 0 127.4 19.37 1.355 1.855
9.395 128.5 19.37 9.500
17749.5 0 127.4 19.37 1.355 1.856
9.407 128.5 19.37 9.500
17749.4 0 127.4 19.37 1.355 1.856
9.422 128.5 19.37 9.500
17749.3 0 127.4 19.37 1.355 1.856
9.436 128.5 19.37 9.500
17749.1 0 127.4 19.37 1.355 1.856
9.451 128.5 19.37 9.500
17749.0 0 127.4 19.37 1.355 1.857
9.467 128.5 19.37 9.500
17749.0 0 127.4 19.37 1.355 1.857
9.482 128.5 19.37 9.500
17748.9 0 127.4 19.37 1.355 1.857
9.498 128.5 19.37 9.500
17748.8 0 127.4 19.37 1.355 1.857
9.510 128.5 19.37 9.500
17748.6 0 127.4 19.37 1.355 1.858
9.526 128.5 19.37 9.500
17748.5 0 127.4 19.37 1.355 1.858
9.541 128.5 19.37 9.500
17748.5 0 127.4 19.37 1.355 1.858
9.557 128.5 19.37 9.500
17748.3 0 127.4 19.37 1.355 1.859
9.570 128.5 19.37 9.500
17748.2 0 127.4 19.37 1.355 1.859
9.582 128.5 19.37 9.500
17748.1 0 127.4 19.37 1.355 1.859
9.597 128.5 19.37 9.500
17748.0 0 127.4 19.37 1.355 1.859
9.614 128.5 19.37 9.500
17748.0 0 127.4 19.37 1.355 1.860
9.630 128.5 19.37 9.500
17747.9 0 127.4 19.37 1.355 1.860
9.643 128.5 19.37 9.500
17747.7 0 127.4 19.37 1.355 1.860
9.657 128.5 19.37 9.500
17747.6 0 127.4 19.37 1.355 1.861
9.671 128.5 19.37 9.500
17747.5 0 127.4 19.37 1.355 1.861
9.684 128.5 19.37 9.500
17747.4 0 127.4 19.37 1.355 1.861
9.697 128.5 19.37 9.500
17747.3 0 127.4 19.37 1.355 1.862
9.712 128.5 19.37 9.500
17747.1 0 127.4 19.37 1.355 1.862
9.727 128.5 19.37 9.500
17747.1 0 127.4 19.37 1.355 1.862
9.741 128.5 19.37 9.500
17747.0 0 127.4 19.37 1.355 1.862
9.755 128.5 19.37 9.500
17746.9 0 127.4 19.37 1.355 1.863
9.769 128.5 19.37 9.500
17746.8 0 127.4 19.37 1.355 1.863
9.784 128.5 19.37 9.500
17746.7 0 127.4 19.37 1.355 1.863
9.798 128.5 19.37 9.500
17746.6 0 127.4 19.37 1.355 1.864
9.814 128.5 19.37 9.500
17746.5 0 127.4 19.37 1.355 1.864
9.828 128.5 19.37 9.500
17746.4 0 127.4 19.37 1.355 1.864
9.846 128.5 19.37 9.500
17746.4 0 127.4 19.37 1.355 1.864
9.861 128.5 19.37 9.500
17746.2 0 127.4 19.37 1.355 1.865
9.876 128.5 19.37 9.500
17746.2 0 127.4 19.37 1.355 1.865
9.895 128.5 19.37 9.500
17746.1 0 127.4 19.37 1.355 1.865
9.912 128.5 19.37 9.500
17746.0 0 127.4 19.37 1.355 1.865
9.929 128.5 19.37 9.500
17745.9 0 127.4 19.37 1.355 1.866
9.945 128.5 19.37 9.500
17745.9 0 127.4 19.37 1.355 1.866
9.962 128.5 19.37 9.500
17745.8 0 127.4 19.37 1.355 1.866
9.978 128.5 19.37 9.500
17745.7 0 127.4 19.37 1.355 1.867
9.994 128.5 19.37 9.500
17745.6 0 127.4 19.37 1.355 1.867
10.01 128.5 19.37 9.500
17745.5 0 127.4 19.37 1.355 1.867
10.03 128.5 19.37 9.500
17745.5 0 127.4 19.37 1.355 1.867
10.04 128.5 19.37 9.500
17745.4 0 127.4 19.37 1.355 1.868
10.06 128.5 19.37 9.500
17745.3 0 127.4 19.37 1.355 1.868
10.07 128.5 19.37 9.500
17745.3 0 127.4 19.37 1.355 1.868
10.09 128.5 19.37 9.500
17745.2 0 127.4 19.37 1.355 1.869
10.10 128.5 19.37 9.500
17745.0 0 127.4 19.37 1.355 1.869
10.12 128.5 19.37 9.500
17744.9 0 127.4 19.37 1.355 1.869
10.13 128.5 19.37 9.500
17744.8 0 127.4 19.37 1.355 1.870
10.14 128.5 19.37 9.500
17744.7 0 127.4 19.37 1.355 1.870
10.16 128.5 19.37 9.500
17744.7 0 127.4 19.37 1.355 1.870
10.17 128.5 19.37 9.500
17744.6 0 127.4 19.37 1.355 1.870
10.19 128.5 19.37 9.500
17744.5 0 127.4 19.37 1.355 1.871
10.21 128.5 19.37 9.500
17744.4 0 127.4 19.37 1.355 1.871
10.22 128.5 19.37 9.500
17744.3 0 127.4 19.37 1.355 1.871
10.24 128.5 19.37 9.500
17744.3 0 127.4 19.37 1.355 1.872
10.25 128.5 19.37 9.500
17744.2 0 127.4 19.37 1.355 1.872
10.27 128.5 19.37 9.500
17744.1 0 127.4 19.37 1.355 1.872
10.28 128.5 19.37 9.500
17744.0 0 127.4 19.37 1.355 1.872
10.30 128.5 19.37 9.500
17743.9 0 127.4 19.37 1.355 1.873
10.31 128.5 19.37 9.500
17743.9 0 127.4 19.37 1.355 1.873
10.33 128.5 19.37 9.500
17743.7 0 127.4 19.37 1.355 1.873
10.34 128.5 19.37 9.500
17743.7 0 127.4 19.37 1.355 1.874
10.36 128.5 19.37 9.500
17743.6 0 127.4 19.37 1.355 1.874
10.38 128.5 19.37 9.500
17743.5 0 127.4 19.37 1.355 1.874
10.39 128.5 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
2.22E-05 | -0.01 0.00 -0.95 0.31 -0.01 0.00 0.00
5.60E-05 | 0.00 0.00 -0.31 -0.95 0.02 0.00 0.00
2.03E-02 | -0.99 -0.02 0.00 0.00 0.00 -0.10 -0.01
1.73E-02 | -0.10 0.00 0.00 0.00 0.00 0.99 0.04
2.45E+00 | 0.00 0.32 0.00 0.00 -0.04 0.03 -0.95
5.14E+00 | 0.02 -0.95 0.00 0.00 -0.01 0.02 -0.32
2.06E+02 | 0.00 0.01 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 127.397 +/- 0.161038 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.20717 1
3 3 1 gaussian norm 1.35457 +/- 0.796206E-02 1
4 4 2 powerlaw PhoIndex 1.87420 +/- 0.278269 1
5 5 2 powerlaw norm 10.3920 +/- 14.3390 1
6 6 3 gaussian LineE keV 128.486 +/- 0.150138 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.72502 2
8 3 3 gaussian norm 1.35457 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 10.3920 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 17743.51 using 198 PHA bins.
Reduced chi-squared = 93.38687 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 90.069) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 90.069) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.344 photons ( 2.8214E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.259 photons ( 2.6475E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:07 01-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 3.101 +/- 7.5732E-03
Net count rate (cts/s) for file 2 3.101 +/- 7.5732E-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 = 249205.8 using 168 PHA bins.
Reduced chi-squared = 1557.536 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12964.48 using 168 PHA bins.
Reduced chi-squared = 81.02800 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2696.80 -3 87.75 11.86 0.1996 0.9896
0.7599 88.80 11.24 0.9819
568.489 -4 84.22 12.09 0.2125 0.9973
0.9065 87.05 11.84 0.9967
546.016 -5 84.69 10.12 0.1925 0.9662
0.8197 87.11 10.85 0.9678
540.481 -6 84.22 11.38 0.2047 0.9802
0.8575 87.02 11.46 0.9802
535.246 -7 84.50 10.55 0.1981 0.9728
0.8392 87.07 11.13 0.9735
533.966 -8 84.30 10.92 0.2030 0.9780
0.8528 87.03 11.35 0.9783
533.693 -9 84.38 10.75 0.2006 0.9751
0.8453 87.05 11.23 0.9757
533.636 -10 84.34 10.83 0.2018 0.9765
0.8489 87.04 11.29 0.9770
533.617 -11 84.36 10.79 0.2012 0.9759
0.8472 87.05 11.26 0.9764
533.616 -12 84.35 10.81 0.2015 0.9762
0.8481 87.04 11.28 0.9767
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.98E-07 | 0.00 0.00 -0.26 0.65 -0.36 0.00 0.00 0.62
1.11E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.93E-06 | 0.00 0.05 -0.96 -0.16 0.13 0.00 0.04 -0.16
1.19E-03 | 0.02 0.82 0.01 -0.09 -0.33 0.01 -0.44 -0.09
1.29E-03 | -0.03 -0.01 0.00 0.21 0.71 -0.03 -0.64 0.20
4.21E-03 | 0.02 -0.57 -0.07 -0.16 -0.48 0.02 -0.62 -0.15
6.41E-02 | -0.89 0.01 0.00 0.00 -0.02 0.45 -0.01 0.00
7.55E-02 | 0.45 0.00 0.00 0.01 0.05 0.89 0.00 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 84.3494 +/- 0.257591 1
2 2 1 gaussian Sigma keV 10.8078 +/- 0.465174E-01 1
3 3 1 gaussian norm 0.201532 +/- 0.561094E-02 1
4 4 2 powerlaw PhoIndex 0.976192 +/- 0.135533E-01 1
5 5 2 powerlaw norm 0.848052 +/- 0.441834E-01 1
6 6 3 gaussian LineE keV 87.0441 +/- 0.270207 2
7 7 3 gaussian Sigma keV 11.2790 +/- 0.490070E-01 2
8 3 3 gaussian norm 0.201532 = par 3 2
9 8 4 powerlaw PhoIndex 0.976653 +/- 0.130309E-01 2
10 5 4 powerlaw norm 0.848052 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 533.6157 using 168 PHA bins.
Reduced chi-squared = 3.335098 for 160 degrees of freedom
Null hypothesis probability = 9.917E-42
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.195) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.195) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.260 photons ( 1.5309E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.257 photons ( 1.5369E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
43.98225
=====best line=====
84.3494 0.257587
=====best sigma=====
10.8074 0.465131E-01
=====norm=====
0.201524 0.561105E-02
=====phoindx=====
0.976181 0.135533E-01
=====pow_norm=====
0.848015 0.441802E-01
=====best line=====
87.0440 0.270255
=====best sigma=====
11.2785 0.490177E-01
=====norm=====
0.201524 par
=====phoindx=====
0.976642 0.130310E-01
=====pow_norm=====
0.848015 par
=====redu_chi=====
3.335097
=====area_flux=====
1.260
=====area_flux_f=====
1.257
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 4 1 640 2000 1349.5904 0 0.201524 0.561105E-02 10.8074 0.465131E-01 0.976181 0.135533E-01 0.848015 0.441802E-01 1.260 640 2000 1392.704 0 0.201524 0.561105E-02 11.2785 0.490177E-01 0.976642 0.130310E-01 0.848015 0.441802E-01 1.257 3.335097 1
=====redu_chi=====
461.4157
=====best line=====
127.397 0.161038
=====best sigma=====
19.3655 2.20717
=====norm=====
1.35457 0.796206E-02
=====phoindx=====
1.87420 0.278269
=====pow_norm=====
10.3920 14.3390
=====best line=====
128.486 0.150138
=====best sigma=====
19.3655 1.72502
=====norm=====
1.35457 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
10.3920 par
=====redu_chi=====
93.38687
=====area_flux=====
1.344
=====area_flux_f=====
1.259
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 4 1 1600 3200 2038.352 0 1.35457 0.796206E-02 309.848 35.31472 1.87420 0.278269 10.3920 14.3390 1.344 1600 3200 2055.776 0 1.35457 0.796206E-02 309.848 27.60032 9.50000 -1.00000 10.3920 14.3390 1.259 93.38687 1
=====redu_chi=====
81.02800
=====best line=====
84.3494 0.257591
=====best sigma=====
10.8078 0.465174E-01
=====norm=====
0.201532 0.561094E-02
=====phoindx=====
0.976192 0.135533E-01
=====pow_norm=====
0.848052 0.441834E-01
=====best line=====
87.0441 0.270207
=====best sigma=====
11.2790 0.490070E-01
=====norm=====
0.201532 par
=====phoindx=====
0.976653 0.130309E-01
=====pow_norm=====
0.848052 par
=====redu_chi=====
3.335098
=====area_flux=====
1.260
=====area_flux_f=====
1.257
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 4 1 640 2000 1349.5904 0 0.201532 0.561094E-02 10.8078 0.465174E-01 0.976192 0.135533E-01 0.848052 0.441834E-01 1.260 640 2000 1392.7056 0 0.201532 0.561094E-02 11.2790 0.490070E-01 0.976653 0.130309E-01 0.848052 0.441834E-01 1.257 3.335098 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:07 01-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 3.210 +/- 7.7048E-03
Net count rate (cts/s) for file 2 3.210 +/- 7.7048E-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 = 302342.5 using 168 PHA bins.
Reduced chi-squared = 1889.641 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17186.47 using 168 PHA bins.
Reduced chi-squared = 107.4154 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
14365.4 -3 82.00 16.48 0.2361 1.141
0.9370 81.79 16.46 1.128
2948.83 -4 73.76 8.023 0.1501 0.8579
0.5793 73.21 7.932 0.8734
2899.42 -5 75.83 10.68 0.1979 1.056
0.9632 75.91 14.94 1.054
1415.74 -6 76.75 9.786 0.1802 1.130
1.438 77.80 8.599 1.129
706.497 -7 76.16 9.873 0.2054 1.117
1.462 76.69 11.72 1.119
641.396 -8 76.26 9.630 0.2010 1.112
1.434 76.61 9.924 1.114
640.743 0 76.24 9.660 0.2018 1.112
1.434 76.58 9.970 1.114
639.951 -1 76.19 9.768 0.2048 1.112
1.432 76.52 10.18 1.114
639.661 -2 76.20 9.789 0.2056 1.112
1.432 76.51 10.09 1.114
639.629 -3 76.21 9.792 0.2058 1.113
1.434 76.51 10.13 1.115
639.629 0 76.21 9.793 0.2058 1.113
1.434 76.51 10.12 1.115
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.04E-06 | 0.00 0.00 -0.28 0.69 -0.22 0.00 0.00 0.63
1.19E-06 | 0.00 0.00 -0.01 -0.68 0.00 0.00 0.00 0.74
9.67E-06 | 0.00 0.01 -0.96 -0.19 0.07 0.00 0.04 -0.19
2.16E-03 | 0.01 -0.07 0.03 -0.02 -0.14 0.03 0.99 -0.01
3.58E-03 | -0.07 -0.04 0.01 0.17 0.96 -0.06 0.14 0.16
6.33E-02 | 0.54 -0.54 -0.01 0.01 0.06 0.64 -0.06 0.01
4.45E-02 | 0.73 0.68 0.01 0.01 0.07 -0.04 0.05 0.01
5.07E-02 | -0.42 0.49 0.00 0.01 0.03 0.76 0.02 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.2055 +/- 0.225458 1
2 2 1 gaussian Sigma keV 9.79274 +/- 0.226271 1
3 3 1 gaussian norm 0.205797 +/- 0.435195E-02 1
4 4 2 powerlaw PhoIndex 1.11276 +/- 0.107964E-01 1
5 5 2 powerlaw norm 1.43423 +/- 0.618827E-01 1
6 6 3 gaussian LineE keV 76.5111 +/- 0.236009 2
7 7 3 gaussian Sigma keV 10.1169 +/- 0.504242E-01 2
8 3 3 gaussian norm 0.205797 = par 3 2
9 8 4 powerlaw PhoIndex 1.11478 +/- 0.103603E-01 2
10 5 4 powerlaw norm 1.43423 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 639.6286 using 168 PHA bins.
Reduced chi-squared = 3.997679 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 ( 3.830) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.830) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.208 photons ( 1.4261E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.199 photons ( 1.4168E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:07 01-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 7.505 +/- 1.1780E-02
Net count rate (cts/s) for file 2 7.505 +/- 1.1780E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.294 +/- 1.4076E-02( 57.2% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.294 +/- 1.4076E-02( 57.2% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 7530686. using 198 PHA bins.
Reduced chi-squared = 39635.19 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 74725.23 using 198 PHA bins.
Reduced chi-squared = 393.2907 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
39356.7 -3 115.4 19.18 0.4509 2.773
0.1486 112.5 19.19 2.724
37333.4 -2 113.9 19.30 1.376 8.637
2.4899E-02 109.8 8.805 8.330
13362.3 -2 117.4 19.33 1.154 9.384
1.1973E-03 109.3 17.72 2.484
13118.0 -3 113.3 19.35 1.471 9.499
36.19 109.5 19.23 8.073
13109.0 -1 113.3 19.36 1.459 9.500
16.89 110.0 19.32 9.325
12810.9 0 113.8 19.36 1.417 9.500
4.816 110.3 19.36 9.435
12662.4 0 114.3 19.37 1.390 9.500
2.177 110.6 19.36 9.480
12596.1 0 114.8 19.37 1.372 9.500
0.5553 110.8 19.37 9.496
12566.5 0 115.1 19.37 1.358 9.500
0.1171 111.0 19.37 9.498
12536.1 0 115.4 19.37 1.348 9.500
5.8964E-03 111.2 19.34 9.500
12492.4 0 115.6 19.37 1.339 9.500
1.5054E-03 111.4 19.27 9.500
12474.5 0 115.8 19.37 1.333 9.500
7.4464E-04 111.5 19.24 9.500
12450.7 0 116.0 19.37 1.327 9.500
3.3787E-04 111.7 19.19 9.500
12428.2 0 116.1 19.37 1.323 9.500
1.2691E-04 111.8 19.14 9.500
12318.7 0 116.2 19.37 1.316 9.500
6.9725E-06 111.8 19.01 9.500
12251.6 0 116.2 19.37 1.313 9.500
9.3865E-07 111.7 18.94 9.500
12203.8 0 116.2 19.37 1.311 9.500
2.0536E-07 111.6 18.88 9.500
12168.8 0 116.2 19.37 1.309 9.500
2.6437E-08 111.6 18.82 9.500
12118.3 0 116.2 19.37 1.306 9.500
1.6605E-09 111.5 18.73 9.500
12100.4 0 116.2 19.37 1.304 9.500
2.5913E-10 111.5 18.68 9.500
12087.2 0 116.2 19.37 1.303 9.500
8.6627E-11 111.5 18.65 9.500
12076.8 0 116.2 19.37 1.302 9.500
1.4770E-12 111.5 18.61 9.500
12068.6 0 116.2 19.37 1.301 9.500
1.6039E-13 111.5 18.58 9.500
12062.0 0 116.2 19.37 1.300 9.500
7.8836E-14 111.5 18.56 9.500
Fit parameter 5 has pegged
12026.6 0 116.1 19.37 1.293 9.500
0.000 111.6 18.31 9.500
Fit parameter 5 has pegged
12016.8 -1 115.8 19.37 1.286 9.500
0.000 112.1 18.02 9.500
Fit parameter 5 has pegged
12004.9 0 115.9 19.37 1.282 9.500
0.000 112.3 18.05 9.500
Fit parameter 5 has pegged
11998.2 0 116.0 19.37 1.279 9.500
0.000 112.3 18.03 9.500
Fit parameter 5 has pegged
11993.8 0 116.1 19.37 1.277 9.500
0.000 112.4 18.01 9.500
Fit parameter 5 has pegged
11990.1 0 116.1 19.37 1.275 9.500
0.000 112.4 17.99 9.500
Fit parameter 5 has pegged
11987.6 0 116.1 19.37 1.273 9.500
0.000 112.5 17.98 9.500
Fit parameter 5 has pegged
11985.8 0 116.2 19.37 1.272 9.500
0.000 112.5 17.96 9.500
Fit parameter 5 has pegged
11984.5 0 116.2 19.37 1.271 9.500
0.000 112.6 17.95 9.500
Fit parameter 5 has pegged
11983.5 0 116.2 19.37 1.270 9.500
0.000 112.6 17.94 9.500
Fit parameter 5 has pegged
11982.2 0 116.2 19.37 1.269 9.500
0.000 112.6 17.93 9.500
Fit parameter 5 has pegged
11981.7 0 116.2 19.37 1.268 9.500
0.000 112.6 17.92 9.500
Fit parameter 5 has pegged
11980.9 0 116.3 19.37 1.267 9.500
0.000 112.7 17.91 9.500
Fit parameter 5 has pegged
11980.4 0 116.3 19.37 1.267 9.500
0.000 112.7 17.91 9.500
Fit parameter 5 has pegged
11980.4 0 116.3 19.37 1.266 9.500
0.000 112.7 17.90 9.500
Fit parameter 5 has pegged
11980.0 0 116.3 19.37 1.266 9.500
0.000 112.7 17.90 9.500
Fit parameter 5 has pegged
11979.7 0 116.3 19.37 1.266 9.500
0.000 112.7 17.90 9.500
Fit parameter 5 has pegged
11979.5 0 116.3 19.37 1.266 9.500
0.000 112.7 17.89 9.500
Fit parameter 5 has pegged
11979.1 0 116.3 19.37 1.265 9.500
0.000 112.7 17.89 9.500
Fit parameter 5 has pegged
11978.7 0 116.3 19.37 1.265 9.500
0.000 112.7 17.89 9.500
Fit parameter 5 has pegged
11978.6 0 116.3 19.37 1.265 9.500
0.000 112.7 17.89 9.500
Fit parameter 5 has pegged
11978.2 0 116.3 19.37 1.265 9.500
0.000 112.7 17.89 9.500
Fit parameter 5 has pegged
11977.9 0 116.4 19.37 1.264 9.500
0.000 112.7 17.89 9.500
Fit parameter 5 has pegged
11977.6 0 116.4 19.37 1.264 9.500
0.000 112.7 17.89 9.500
Fit parameter 5 has pegged
11977.4 0 116.4 19.37 1.264 9.500
0.000 112.7 17.89 9.500
Fit parameter 5 has pegged
11977.1 0 116.4 19.37 1.264 9.500
0.000 112.7 17.89 9.500
Fit parameter 5 has pegged
11976.9 0 116.4 19.37 1.263 9.500
0.000 112.7 17.88 9.500
Fit parameter 5 has pegged
11976.7 0 116.4 19.37 1.263 9.500
0.000 112.7 17.88 9.500
Fit parameter 5 has pegged
11976.5 0 116.4 19.37 1.263 9.500
0.000 112.7 17.88 9.500
Fit parameter 5 has pegged
11976.4 0 116.4 19.37 1.263 9.500
0.000 112.7 17.88 9.500
Fit parameter 5 has pegged
11976.2 0 116.4 19.37 1.263 9.500
0.000 112.7 17.88 9.500
Fit parameter 5 has pegged
11976.1 0 116.4 19.37 1.263 9.500
0.000 112.7 17.88 9.500
Fit parameter 5 has pegged
11976.0 0 116.5 19.37 1.262 9.500
0.000 112.7 17.88 9.500
Fit parameter 5 has pegged
11975.9 0 116.5 19.37 1.262 9.500
0.000 112.7 17.88 9.500
Fit parameter 5 has pegged
11975.8 0 116.5 19.37 1.262 9.500
0.000 112.7 17.88 9.500
Fit parameter 5 has pegged
11975.7 0 116.5 19.37 1.262 9.500
0.000 112.8 17.88 9.500
Fit parameter 5 has pegged
11975.6 0 116.5 19.37 1.262 9.500
0.000 112.8 17.88 9.500
Fit parameter 5 has pegged
11975.6 0 116.5 19.37 1.262 9.500
0.000 112.8 17.88 9.500
11975.4 0 116.5 19.37 1.261 9.500
0.000 112.8 17.88 9.500
Fit parameter 5 has pegged
11975.3 0 116.5 19.37 1.261 9.500
0.000 112.8 17.88 9.500
Fit parameter 5 has pegged
11975.3 0 116.5 19.37 1.261 9.500
0.000 112.8 17.88 9.500
Fit parameter 5 has pegged
11975.2 0 116.5 19.37 1.261 9.500
0.000 112.8 17.88 9.500
Fit parameter 5 has pegged
11975.2 0 116.5 19.37 1.261 9.500
0.000 112.8 17.88 9.500
Fit parameter 5 has pegged
11975.2 1 116.5 19.37 1.261 9.500
0.000 112.8 17.88 9.500
11975.2 3 116.5 19.37 1.261 9.500
0.000 112.8 17.88 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.46E-05 | -0.01 0.00 -1.00 -0.01 0.01
6.75E-03 | 0.00 0.00 0.00 0.54 0.84
2.00E-02 | -0.97 -0.07 0.01 0.20 -0.13
4.34E-02 | 0.23 0.06 -0.02 0.82 -0.53
2.75E+00 | 0.08 -1.00 0.00 0.03 -0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.513 +/- 0.197453 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.65158 1
3 3 1 gaussian norm 1.26093 +/- 0.717313E-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 112.771 +/- 0.187056 2
7 7 3 gaussian Sigma keV 17.8777 +/- 0.135714 2
8 3 3 gaussian norm 1.26093 = 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 = 11975.15 using 198 PHA bins.
Reduced chi-squared = 63.02712 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 ( 60.788) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 60.788) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.013 photons ( 1.9987E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9614 photons ( 1.8487E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:08 01-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 3.210 +/- 7.7048E-03
Net count rate (cts/s) for file 2 3.210 +/- 7.7048E-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 = 365031.3 using 168 PHA bins.
Reduced chi-squared = 2281.446 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 25514.34 using 168 PHA bins.
Reduced chi-squared = 159.4646 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3925.10 -2 85.13 13.54 0.1366 0.9146
0.6235 84.93 13.27 0.9094
2906.24 -3 67.76 15.97 0.2204 1.030
0.9020 67.97 15.38 1.027
1346.16 -2 80.27 9.501 0.1913 1.058
1.100 79.18 9.930 1.057
1296.19 -3 76.22 15.22 0.2086 1.107
1.353 76.35 13.42 1.107
1010.50 -4 78.57 7.899 0.1474 1.117
1.519 77.78 9.200 1.116
672.913 -1 76.47 9.903 0.1887 1.119
1.496 76.60 9.809 1.121
670.947 -2 76.23 9.830 0.2064 1.119
1.474 76.53 11.21 1.121
640.448 -3 76.25 9.709 0.2031 1.114
1.447 76.61 9.969 1.116
640.148 -1 76.21 9.780 0.2052 1.114
1.445 76.53 10.23 1.116
639.678 -2 76.21 9.792 0.2058 1.114
1.443 76.52 10.09 1.116
639.632 -3 76.21 9.795 0.2058 1.113
1.437 76.51 10.13 1.115
639.629 0 76.21 9.794 0.2058 1.113
1.437 76.51 10.12 1.115
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.04E-06 | 0.00 0.00 -0.28 0.69 -0.22 0.00 0.00 0.63
1.19E-06 | 0.00 0.00 -0.02 -0.68 -0.01 0.00 0.00 0.74
9.67E-06 | 0.00 0.01 -0.96 -0.19 0.07 0.00 0.04 -0.19
2.14E-03 | 0.01 -0.07 0.03 -0.02 -0.14 0.03 0.99 -0.01
3.59E-03 | -0.07 -0.04 0.01 0.17 0.96 -0.06 0.14 0.16
6.34E-02 | 0.54 -0.54 -0.01 0.01 0.06 0.64 -0.06 0.01
4.45E-02 | 0.73 0.68 0.01 0.01 0.07 -0.04 0.05 0.01
5.07E-02 | -0.42 0.49 0.00 0.01 0.03 0.76 0.02 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.2083 +/- 0.225476 1
2 2 1 gaussian Sigma keV 9.79439 +/- 0.226302 1
3 3 1 gaussian norm 0.205844 +/- 0.435310E-02 1
4 4 2 powerlaw PhoIndex 1.11325 +/- 0.107974E-01 1
5 5 2 powerlaw norm 1.43731 +/- 0.620197E-01 1
6 6 3 gaussian LineE keV 76.5137 +/- 0.236033 2
7 7 3 gaussian Sigma keV 10.1187 +/- 0.501740E-01 2
8 3 3 gaussian norm 0.205844 = par 3 2
9 8 4 powerlaw PhoIndex 1.11531 +/- 0.103614E-01 2
10 5 4 powerlaw norm 1.43731 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 639.6288 using 168 PHA bins.
Reduced chi-squared = 3.997680 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 ( 3.830) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.830) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.208 photons ( 1.4262E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.199 photons ( 1.4168E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
107.4154
=====best line=====
76.2055 0.225458
=====best sigma=====
9.79274 0.226271
=====norm=====
0.205797 0.435195E-02
=====phoindx=====
1.11276 0.107964E-01
=====pow_norm=====
1.43423 0.618827E-01
=====best line=====
76.5111 0.236009
=====best sigma=====
10.1169 0.504242E-01
=====norm=====
0.205797 par
=====phoindx=====
1.11478 0.103603E-01
=====pow_norm=====
1.43423 par
=====redu_chi=====
3.997679
=====area_flux=====
1.208
=====area_flux_f=====
1.199
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 5 1 640 2000 1219.288 0 0.205797 0.435195E-02 9.79274 0.226271 1.11276 0.107964E-01 1.43423 0.618827E-01 1.208 640 2000 1224.1776 0 0.205797 0.435195E-02 10.1169 0.504242E-01 1.11478 0.103603E-01 1.43423 0.618827E-01 1.199 3.997679 1
=====redu_chi=====
393.2907
=====best line=====
116.513 0.197453
=====best sigma=====
19.3655 1.65158
=====norm=====
1.26093 0.717313E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
112.771 0.187056
=====best sigma=====
17.8777 0.135714
=====norm=====
1.26093 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
63.02712
=====area_flux=====
1.013
=====area_flux_f=====
0.9614
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 5 1 1600 3200 1864.208 0 1.26093 0.717313E-02 309.848 26.42528 9.50000 -1.00000 0.00000 -1.00000 1.013 1600 3200 1804.336 0 1.26093 0.717313E-02 286.0432 2.171424 9.50000 -1.00000 0.00000 -1.00000 0.9614 63.02712 1
=====redu_chi=====
159.4646
=====best line=====
76.2083 0.225476
=====best sigma=====
9.79439 0.226302
=====norm=====
0.205844 0.435310E-02
=====phoindx=====
1.11325 0.107974E-01
=====pow_norm=====
1.43731 0.620197E-01
=====best line=====
76.5137 0.236033
=====best sigma=====
10.1187 0.501740E-01
=====norm=====
0.205844 par
=====phoindx=====
1.11531 0.103614E-01
=====pow_norm=====
1.43731 par
=====redu_chi=====
3.997680
=====area_flux=====
1.208
=====area_flux_f=====
1.199
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 5 1 640 2000 1219.3328 0 0.205844 0.435310E-02 9.79439 0.226302 1.11325 0.107974E-01 1.43731 0.620197E-01 1.208 640 2000 1224.2192 0 0.205844 0.435310E-02 10.1187 0.501740E-01 1.11531 0.103614E-01 1.43731 0.620197E-01 1.199 3.997680 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:08 01-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 3.193 +/- 7.6846E-03
Net count rate (cts/s) for file 2 3.193 +/- 7.6846E-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 = 243232.3 using 168 PHA bins.
Reduced chi-squared = 1520.202 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12941.47 using 168 PHA bins.
Reduced chi-squared = 80.88419 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2213.30 -3 83.48 16.13 0.2310 0.9451
0.6699 83.98 15.47 0.9386
1126.53 -3 76.01 8.273 0.1212 0.8324
0.4816 78.40 8.569 0.8351
834.530 -1 76.79 9.582 0.1703 0.8370
0.4837 79.31 11.93 0.8371
688.305 -2 77.00 9.016 0.1728 0.8565
0.5213 79.30 9.751 0.8552
680.115 -2 76.92 9.637 0.1854 0.8728
0.5538 79.38 10.99 0.8720
664.208 -3 77.30 9.302 0.1815 0.9162
0.6566 79.77 9.933 0.9141
656.085 -4 77.28 9.681 0.1896 0.9334
0.7129 79.74 11.34 0.9324
623.021 -5 77.40 9.334 0.1821 0.9309
0.7151 79.88 9.915 0.9306
621.817 0 77.36 9.403 0.1833 0.9310
0.7148 79.83 9.953 0.9308
621.172 0 77.35 9.443 0.1843 0.9311
0.7144 79.81 9.980 0.9309
620.284 -1 77.32 9.560 0.1873 0.9314
0.7135 79.76 10.14 0.9313
620.209 -2 77.33 9.556 0.1878 0.9318
0.7142 79.76 10.06 0.9316
620.140 -3 77.34 9.567 0.1881 0.9326
0.7166 79.76 10.12 0.9325
620.140 0 77.34 9.567 0.1881 0.9326
0.7166 79.76 10.10 0.9325
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.27E-07 | 0.00 0.00 -0.24 0.63 -0.41 0.00 0.00 0.61
1.07E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
9.49E-06 | 0.00 0.01 -0.97 -0.15 0.12 0.00 0.03 -0.15
9.68E-04 | 0.03 0.01 -0.01 -0.31 -0.90 0.03 0.09 -0.30
2.73E-03 | 0.00 -0.09 0.03 0.03 0.08 0.01 0.99 0.03
5.35E-02 | 0.76 0.64 0.01 0.01 0.03 -0.08 0.05 0.01
7.14E-02 | -0.44 0.41 0.01 -0.01 -0.03 -0.80 0.05 -0.01
6.05E-02 | -0.48 0.64 0.01 0.01 0.01 0.60 0.04 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.3369 +/- 0.241931 1
2 2 1 gaussian Sigma keV 9.56661 +/- 0.243048 1
3 3 1 gaussian norm 0.188075 +/- 0.440988E-02 1
4 4 2 powerlaw PhoIndex 0.932624 +/- 0.104907E-01 1
5 5 2 powerlaw norm 0.716633 +/- 0.300382E-01 1
6 6 3 gaussian LineE keV 79.7602 +/- 0.259410 2
7 7 3 gaussian Sigma keV 10.1028 +/- 0.560155E-01 2
8 3 3 gaussian norm 0.188075 = par 3 2
9 8 4 powerlaw PhoIndex 0.932484 +/- 0.100757E-01 2
10 5 4 powerlaw norm 0.716633 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 620.1397 using 168 PHA bins.
Reduced chi-squared = 3.875873 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 ( 3.713) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.713) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.264 photons ( 1.5192E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.265 photons ( 1.5273E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:08 01-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 7.569 +/- 1.1831E-02
Net count rate (cts/s) for file 2 7.569 +/- 1.1831E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.376 +/- 1.4108E-02( 57.8% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.376 +/- 1.4108E-02( 57.8% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 4279918. using 198 PHA bins.
Reduced chi-squared = 22525.88 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 85569.43 using 198 PHA bins.
Reduced chi-squared = 450.3654 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
45266.0 -3 120.1 18.07 0.5202 2.918
0.2927 113.4 18.03 2.875
27013.8 -2 107.3 19.05 1.876 8.869
9.5997E-02 107.7 19.28 9.301
23910.3 0 108.7 19.35 1.781 9.454
9.0713E-03 109.3 19.33 9.432
21809.1 0 110.2 19.36 1.717 9.499
1.8257E-03 110.9 19.35 9.473
20134.5 0 111.7 19.36 1.669 9.500
7.4018E-04 112.4 19.36 9.492
18822.6 0 113.1 19.36 1.632 9.500
3.6615E-04 113.8 19.37 9.500
17836.6 0 114.3 19.37 1.601 9.500
1.3935E-04 114.9 19.37 9.500
17109.2 0 115.3 19.37 1.576 9.500
1.3161E-05 115.9 19.37 9.500
16571.6 0 116.2 19.37 1.556 9.500
4.5024E-06 116.6 19.37 9.500
16186.0 0 116.9 19.37 1.539 9.500
2.2347E-06 117.2 19.37 9.500
15699.5 0 118.0 19.37 1.513 9.500
4.1252E-07 118.0 19.37 9.500
15551.5 0 118.4 19.37 1.504 9.500
8.7518E-08 118.3 19.37 9.500
15344.1 0 119.1 19.37 1.488 9.500
1.0822E-09 118.6 19.37 9.500
15273.2 0 119.3 19.37 1.482 9.500
1.9148E-10 118.6 19.37 9.500
15223.0 0 119.5 19.37 1.478 9.500
7.9572E-11 118.7 19.37 9.500
15183.5 0 119.6 19.37 1.475 9.500
2.3579E-11 118.8 19.37 9.500
15154.1 0 119.8 19.37 1.472 9.500
9.6254E-12 118.8 19.37 9.500
15133.3 0 119.9 19.37 1.470 9.500
2.5886E-12 118.8 19.37 9.500
15117.2 0 119.9 19.37 1.469 9.500
8.2189E-13 118.9 19.37 9.500
Fit parameter 5 has pegged
15067.9 0 120.0 19.37 1.461 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
15052.4 0 120.1 19.37 1.458 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
15047.1 0 120.1 19.37 1.457 9.500
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
15046.7 0 120.1 19.37 1.457 9.500
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
15016.1 0 120.2 19.37 1.452 9.500
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
14988.4 0 120.3 19.37 1.448 9.500
0.000 118.5 19.37 9.500
Fit parameter 5 has pegged
14963.2 0 120.3 19.37 1.444 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
14940.6 0 120.4 19.37 1.440 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
14919.8 0 120.5 19.37 1.437 9.500
0.000 118.6 19.37 9.500
Fit parameter 5 has pegged
14901.0 0 120.6 19.37 1.434 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
14883.8 0 120.6 19.37 1.431 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
14868.0 0 120.7 19.37 1.428 9.500
0.000 118.7 19.37 9.500
Fit parameter 5 has pegged
14853.5 0 120.8 19.37 1.425 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
14840.3 0 120.8 19.37 1.423 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
14828.1 0 120.9 19.37 1.421 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
14816.8 0 121.0 19.37 1.418 9.500
0.000 118.8 19.37 9.500
Fit parameter 5 has pegged
14806.4 0 121.0 19.37 1.416 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
14796.9 0 121.1 19.37 1.414 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
14788.1 0 121.1 19.37 1.413 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
14780.0 0 121.2 19.37 1.411 9.500
0.000 118.9 19.37 9.500
Fit parameter 5 has pegged
14772.4 0 121.2 19.37 1.409 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
14765.5 0 121.3 19.37 1.408 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
14759.1 0 121.3 19.37 1.407 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
14753.1 0 121.4 19.37 1.405 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
14747.6 0 121.4 19.37 1.404 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
14742.5 0 121.5 19.37 1.403 9.500
0.000 119.0 19.37 9.500
Fit parameter 5 has pegged
14737.7 0 121.5 19.37 1.402 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
14733.3 0 121.5 19.37 1.401 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
14729.2 0 121.6 19.37 1.400 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
14725.5 0 121.6 19.37 1.399 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
14722.0 0 121.7 19.37 1.398 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
14718.7 0 121.7 19.37 1.397 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
14715.6 0 121.7 19.37 1.396 9.500
0.000 119.1 19.37 9.500
Fit parameter 5 has pegged
14712.8 0 121.8 19.37 1.395 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
14710.1 0 121.8 19.37 1.395 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
14707.6 0 121.8 19.37 1.394 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
14705.3 0 121.8 19.37 1.393 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
14703.1 0 121.9 19.37 1.393 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
14701.1 0 121.9 19.37 1.392 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
14699.3 0 121.9 19.37 1.392 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
14697.5 0 121.9 19.37 1.391 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
14695.9 0 122.0 19.37 1.391 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
14694.3 0 122.0 19.37 1.390 9.500
0.000 119.2 19.37 9.500
Fit parameter 5 has pegged
14693.0 0 122.0 19.37 1.390 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14691.5 0 122.0 19.37 1.389 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14690.3 0 122.1 19.37 1.389 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14689.1 0 122.1 19.37 1.388 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14688.0 0 122.1 19.37 1.388 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14686.9 0 122.1 19.37 1.388 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14686.0 0 122.1 19.37 1.387 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14685.0 0 122.1 19.37 1.387 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14684.2 0 122.2 19.37 1.387 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14683.4 0 122.2 19.37 1.386 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14682.6 0 122.2 19.37 1.386 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14681.9 0 122.2 19.37 1.386 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14681.3 0 122.2 19.37 1.385 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14680.6 0 122.2 19.37 1.385 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14680.0 0 122.2 19.37 1.385 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14679.5 0 122.2 19.37 1.385 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14678.9 0 122.3 19.37 1.384 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14678.4 0 122.3 19.37 1.384 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14677.9 0 122.3 19.37 1.384 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14677.5 0 122.3 19.37 1.384 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14677.0 0 122.3 19.37 1.384 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14676.7 0 122.3 19.37 1.384 9.500
0.000 119.3 19.37 9.500
Fit parameter 5 has pegged
14676.3 0 122.3 19.37 1.383 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14676.0 0 122.3 19.37 1.383 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14675.6 0 122.3 19.37 1.383 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14675.3 0 122.3 19.37 1.383 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14675.0 0 122.3 19.37 1.383 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14674.7 0 122.4 19.37 1.383 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14674.4 0 122.4 19.37 1.382 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14674.2 0 122.4 19.37 1.382 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14673.9 0 122.4 19.37 1.382 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14673.7 0 122.4 19.37 1.382 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14673.5 0 122.4 19.37 1.382 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14673.3 0 122.4 19.37 1.382 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14673.1 0 122.4 19.37 1.382 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14672.9 0 122.4 19.37 1.382 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14672.7 0 122.4 19.37 1.382 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14672.6 0 122.4 19.37 1.382 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14672.4 0 122.4 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14672.2 0 122.4 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14672.1 0 122.4 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14671.9 0 122.4 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14671.8 0 122.4 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14671.6 0 122.4 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14671.5 0 122.4 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14671.4 0 122.4 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14671.4 0 122.4 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14671.3 0 122.4 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14671.2 0 122.5 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14671.0 0 122.5 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14671.0 0 122.5 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.8 0 122.5 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.8 0 122.5 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.7 0 122.5 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.6 0 122.5 19.37 1.381 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.6 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.5 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.5 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.4 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.4 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.3 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.2 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.2 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.1 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.1 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14670.0 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
14670.0 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.9 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.9 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.8 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.8 1 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.7 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.7 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.6 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.6 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.6 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
14669.5 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.4 1 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.4 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
14669.3 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.3 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.2 1 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.2 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.2 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
14669.2 0 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.1 1 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.0 1 122.5 19.37 1.380 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14669.0 1 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.9 0 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.9 1 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.9 0 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
14668.8 1 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.8 1 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.7 1 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.7 0 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.6 1 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.6 1 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
14668.5 0 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.5 0 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.4 1 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.3 1 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
Fit parameter 5 has pegged
14668.3 5 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
14668.3 5 122.5 19.37 1.379 9.500
0.000 119.4 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.53E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.71E-02 | 0.24 0.00 0.01 -0.97 -0.07
2.09E-02 | -0.97 -0.04 0.01 -0.24 -0.02
3.83E+00 | -0.04 0.93 0.00 -0.03 0.37
2.01E+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 122.530 +/- 0.160555 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.89072 1
3 3 1 gaussian norm 1.37898 +/- 0.661619E-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 119.425 +/- 0.170739 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.50043 2
8 3 3 gaussian norm 1.37898 = 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 = 14668.34 using 198 PHA bins.
Reduced chi-squared = 77.20181 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 ( 74.459) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 74.459) > 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 200. reset by matrix bound to 198.
Model flux 1.210 photons ( 2.4624E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.161 photons ( 2.3249E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:09 01-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 3.193 +/- 7.6846E-03
Net count rate (cts/s) for file 2 3.193 +/- 7.6846E-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 = 294004.3 using 168 PHA bins.
Reduced chi-squared = 1837.527 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 21064.97 using 168 PHA bins.
Reduced chi-squared = 131.6561 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3206.13 -3 85.94 13.72 0.1720 0.9638
0.7246 86.27 12.51 0.9543
1272.05 -4 73.75 14.72 0.1950 0.8942
0.6012 77.10 12.61 0.8957
1102.33 -2 80.75 8.328 0.1257 0.9061
0.6659 81.02 9.395 0.9032
731.077 -1 77.18 10.95 0.1704 0.9089
0.6580 79.50 9.806 0.9085
632.589 -2 77.59 9.789 0.1808 0.9145
0.6678 79.70 9.948 0.9145
632.562 -2 77.28 9.497 0.1867 0.9189
0.6763 79.67 10.71 0.9186
621.173 -3 77.32 9.498 0.1856 0.9286
0.7040 79.79 9.976 0.9279
621.153 -4 77.32 9.601 0.1887 0.9331
0.7170 79.75 10.32 0.9328
620.274 -5 77.35 9.532 0.1873 0.9327
0.7174 79.78 10.04 0.9326
620.178 -6 77.33 9.581 0.1883 0.9330
0.7177 79.76 10.16 0.9329
620.173 -1 77.34 9.562 0.1880 0.9330
0.7178 79.76 10.08 0.9329
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.28E-07 | 0.00 0.00 -0.24 0.63 -0.41 0.00 0.00 0.61
1.07E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
9.53E-06 | 0.00 0.01 -0.97 -0.15 0.12 0.00 0.04 -0.15
9.70E-04 | 0.03 0.01 -0.01 -0.31 -0.90 0.03 0.11 -0.30
2.43E-03 | 0.00 -0.08 0.04 0.04 0.09 0.01 0.99 0.04
5.37E-02 | 0.76 0.64 0.01 0.01 0.03 -0.08 0.05 0.01
7.18E-02 | -0.43 0.40 0.01 -0.01 -0.03 -0.81 0.05 -0.01
6.08E-02 | -0.49 0.65 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 77.3420 +/- 0.242196 1
2 2 1 gaussian Sigma keV 9.56195 +/- 0.243418 1
3 3 1 gaussian norm 0.188021 +/- 0.441905E-02 1
4 4 2 powerlaw PhoIndex 0.932980 +/- 0.104985E-01 1
5 5 2 powerlaw norm 0.717788 +/- 0.301046E-01 1
6 6 3 gaussian LineE keV 79.7650 +/- 0.260447 2
7 7 3 gaussian Sigma keV 10.0760 +/- 0.528529E-01 2
8 3 3 gaussian norm 0.188021 = par 3 2
9 8 4 powerlaw PhoIndex 0.932852 +/- 0.100834E-01 2
10 5 4 powerlaw norm 0.717788 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 620.1725 using 168 PHA bins.
Reduced chi-squared = 3.876078 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 ( 3.714) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.714) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.264 photons ( 1.5192E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.265 photons ( 1.5272E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
80.88419
=====best line=====
77.3369 0.241931
=====best sigma=====
9.56661 0.243048
=====norm=====
0.188075 0.440988E-02
=====phoindx=====
0.932624 0.104907E-01
=====pow_norm=====
0.716633 0.300382E-01
=====best line=====
79.7602 0.259410
=====best sigma=====
10.1028 0.560155E-01
=====norm=====
0.188075 par
=====phoindx=====
0.932484 0.100757E-01
=====pow_norm=====
0.716633 par
=====redu_chi=====
3.875873
=====area_flux=====
1.264
=====area_flux_f=====
1.265
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 6 1 640 2000 1237.3904 0 0.188075 0.440988E-02 9.56661 0.243048 0.932624 0.104907E-01 0.716633 0.300382E-01 1.264 640 2000 1276.1632 0 0.188075 0.440988E-02 10.1028 0.560155E-01 0.932484 0.100757E-01 0.716633 0.300382E-01 1.265 3.875873 1
=====redu_chi=====
450.3654
=====best line=====
122.530 0.160555
=====best sigma=====
19.3655 1.89072
=====norm=====
1.37898 0.661619E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
119.425 0.170739
=====best sigma=====
19.3655 1.50043
=====norm=====
1.37898 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
77.20181
=====area_flux=====
1.210
=====area_flux_f=====
1.161
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 6 1 1600 3200 1960.48 0 1.37898 0.661619E-02 309.848 30.25152 9.50000 -1.00000 0.00000 -1.00000 1.210 1600 3200 1910.8 0 1.37898 0.661619E-02 309.848 24.00688 9.50000 -1.00000 0.00000 -1.00000 1.161 77.20181 1
=====redu_chi=====
131.6561
=====best line=====
77.3420 0.242196
=====best sigma=====
9.56195 0.243418
=====norm=====
0.188021 0.441905E-02
=====phoindx=====
0.932980 0.104985E-01
=====pow_norm=====
0.717788 0.301046E-01
=====best line=====
79.7650 0.260447
=====best sigma=====
10.0760 0.528529E-01
=====norm=====
0.188021 par
=====phoindx=====
0.932852 0.100834E-01
=====pow_norm=====
0.717788 par
=====redu_chi=====
3.876078
=====area_flux=====
1.264
=====area_flux_f=====
1.265
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 6 1 640 2000 1237.472 0 0.188021 0.441905E-02 9.56195 0.243418 0.932980 0.104985E-01 0.717788 0.301046E-01 1.264 640 2000 1276.24 0 0.188021 0.441905E-02 10.0760 0.528529E-01 0.932852 0.100834E-01 0.717788 0.301046E-01 1.265 3.876078 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:09 01-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 3.546 +/- 8.0980E-03
Net count rate (cts/s) for file 2 3.546 +/- 8.0980E-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 = 207868.5 using 168 PHA bins.
Reduced chi-squared = 1299.178 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 20703.31 using 168 PHA bins.
Reduced chi-squared = 129.3957 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5545.64 -3 84.93 17.58 0.3011 0.9580
0.7526 83.90 17.42 0.9480
4308.32 -4 67.07 19.29 0.6537 0.9416
0.5694 67.78 19.07 0.9434
3548.91 -2 69.97 8.868 7.3785E-02 0.8315
0.6215 72.92 4.625 0.8297
2029.86 -2 58.65 8.657 0.1695 0.8168
0.5099 70.65 9.210 0.8172
1233.44 -3 67.30 9.291 0.1856 0.7356
0.3371 70.08 7.637 0.7387
591.807 -4 64.17 8.579 0.2153 0.6692
0.2573 69.71 8.853 0.6708
493.584 -5 65.00 7.935 0.2113 0.6816
0.2770 69.73 8.680 0.6804
489.824 -6 64.81 8.158 0.2152 0.6747
0.2698 69.68 8.792 0.6746
489.702 -7 64.85 8.099 0.2143 0.6761
0.2713 69.69 8.766 0.6757
489.693 -8 64.84 8.113 0.2146 0.6757
0.2709 69.69 8.773 0.6754
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.58E-07 | 0.00 0.00 -0.14 0.45 -0.77 0.00 0.00 0.43
9.21E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.77E-06 | 0.00 0.01 -0.99 -0.08 0.08 0.00 0.01 -0.09
2.59E-04 | 0.02 -0.02 0.04 -0.56 -0.63 0.02 -0.01 -0.53
2.55E-02 | -0.17 -0.80 0.00 0.00 0.00 0.03 0.58 0.00
6.42E-02 | 0.31 -0.52 -0.01 0.02 0.02 0.45 -0.65 0.02
3.42E-02 | -0.93 -0.06 0.00 -0.01 -0.01 0.08 -0.35 -0.01
3.90E-02 | 0.07 -0.30 -0.01 0.00 0.00 -0.89 -0.34 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 64.8378 +/- 0.192149 1
2 2 1 gaussian Sigma keV 8.11281 +/- 0.192996 1
3 3 1 gaussian norm 0.214569 +/- 0.465927E-02 1
4 4 2 powerlaw PhoIndex 0.675696 +/- 0.102611E-01 1
5 5 2 powerlaw norm 0.270884 +/- 0.118384E-01 1
6 6 3 gaussian LineE keV 69.6874 +/- 0.209909 2
7 7 3 gaussian Sigma keV 8.77299 +/- 0.211110 2
8 3 3 gaussian norm 0.214569 = par 3 2
9 8 4 powerlaw PhoIndex 0.675358 +/- 0.981957E-02 2
10 5 4 powerlaw norm 0.270884 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 489.6930 using 168 PHA bins.
Reduced chi-squared = 3.060581 for 160 degrees of freedom
Null hypothesis probability = 4.013E-35
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.932) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.932) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.434 photons ( 1.7190E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.436 photons ( 1.7380E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:09 01-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 8.764 +/- 1.2730E-02
Net count rate (cts/s) for file 2 8.764 +/- 1.2730E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.217 +/- 1.5088E-02( 59.5% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.217 +/- 1.5088E-02( 59.5% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 9130919. using 198 PHA bins.
Reduced chi-squared = 48057.47 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 75855.64 using 198 PHA bins.
Reduced chi-squared = 399.2402 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
43533.2 -3 103.8 18.77 0.5637 2.626
0.1032 103.7 18.79 2.584
42952.6 1 104.4 18.77 0.5751 1.502
0.3918 103.9 18.77 2.366
35053.2 0 108.6 18.52 0.6715 1.514
0.3685 106.3 18.37 2.390
22870.2 0 119.2 18.02 1.057 1.590
0.2328 112.1 9.094 5.231
15414.5 -1 118.0 16.25 1.249 1.764
3.6950E-02 110.6 18.62 9.350
11897.7 0 118.0 16.98 1.310 2.834
1.2429E-02 110.0 16.97 9.481
11697.4 0 117.7 17.28 1.345 9.476
4.8710E-03 110.7 16.80 9.491
11661.9 0 117.7 17.29 1.347 9.498
2.3285E-03 110.7 16.75 9.500
11632.8 0 117.6 17.29 1.349 9.499
7.2594E-04 110.7 16.71 9.500
11608.6 0 117.6 17.30 1.350 9.500
2.7036E-04 110.7 16.67 9.500
11588.1 0 117.5 17.30 1.352 9.500
3.4831E-05 110.7 16.63 9.500
11570.8 0 117.5 17.31 1.353 9.500
4.9599E-06 110.7 16.60 9.500
11555.8 0 117.5 17.32 1.355 9.500
1.2425E-06 110.8 16.57 9.500
11542.8 0 117.4 17.33 1.356 9.500
3.1860E-07 110.8 16.54 9.500
11531.3 0 117.4 17.34 1.357 9.500
8.8791E-08 110.8 16.52 9.500
11500.0 0 117.2 17.37 1.360 9.500
5.0583E-10 110.9 16.45 9.500
11491.3 0 117.2 17.37 1.360 9.500
2.7563E-11 110.9 16.42 9.500
11483.7 0 117.2 17.38 1.361 9.500
1.2696E-11 110.9 16.40 9.500
11476.9 0 117.1 17.39 1.361 9.500
5.2944E-12 110.9 16.38 9.500
11471.0 0 117.1 17.40 1.362 9.500
1.6069E-12 111.0 16.37 9.500
11465.4 0 117.1 17.41 1.362 9.500
6.8765E-13 111.0 16.35 9.500
11460.7 0 117.0 17.41 1.363 9.500
2.2915E-13 111.0 16.34 9.500
11456.2 0 117.0 17.42 1.363 9.500
3.4759E-16 111.0 16.32 9.500
Fit parameter 5 has pegged
11424.6 0 116.8 17.48 1.364 9.500
0.000 111.2 16.18 9.500
Fit parameter 5 has pegged
11401.1 -1 116.4 17.63 1.363 9.500
0.000 111.5 16.00 9.500
Fit parameter 5 has pegged
11398.6 -2 116.2 17.68 1.364 9.500
0.000 111.7 16.01 9.500
Fit parameter 5 has pegged
11398.6 -3 116.2 17.68 1.364 9.500
0.000 111.7 15.98 9.500
Fit parameter 5 has pegged
11398.5 -4 116.2 17.69 1.364 9.500
0.000 111.7 15.99 9.500
11398.5 1 116.2 17.69 1.364 9.500
0.000 111.7 15.99 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.83E-05 | -0.01 0.01 -1.00 -0.01 0.03
6.18E-04 | 0.01 -0.01 0.03 0.15 0.99
4.75E-03 | -0.47 -0.88 0.00 -0.01 0.00
4.49E-02 | 0.74 -0.40 -0.02 0.53 -0.09
2.24E-02 | 0.48 -0.24 0.01 -0.83 0.12
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 116.173 +/- 0.175551 1
2 2 1 gaussian Sigma keV 17.6897 +/- 0.110490 1
3 3 1 gaussian norm 1.36438 +/- 0.739547E-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 111.677 +/- 0.168112 2
7 7 3 gaussian Sigma keV 15.9949 +/- 0.362923E-01 2
8 3 3 gaussian norm 1.36438 = 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 = 11398.55 using 198 PHA bins.
Reduced chi-squared = 59.99235 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 ( 57.861) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 57.861) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.118 photons ( 2.1831E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.047 photons ( 1.9799E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:09 01-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 3.546 +/- 8.0980E-03
Net count rate (cts/s) for file 2 3.546 +/- 8.0980E-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 = 275950.3 using 168 PHA bins.
Reduced chi-squared = 1724.689 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 33322.36 using 168 PHA bins.
Reduced chi-squared = 208.2648 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
11450.0 -3 88.23 13.84 0.1001 0.7714
0.5179 87.17 14.13 0.7633
4707.80 -4 63.08 18.84 0.3779 0.9358
0.7078 57.87 19.30 0.9275
2909.36 0 66.68 15.53 0.3590 0.9320
0.7087 66.21 19.34 0.9265
2319.98 -1 68.80 9.711 0.2356 0.9120
0.7192 75.87 8.380 0.9162
1124.73 -2 66.09 9.124 0.2090 0.8547
0.5746 71.96 11.02 0.8558
815.510 -2 65.93 7.256 0.1873 0.8139
0.4972 70.78 9.658 0.8148
637.967 -2 65.31 7.907 0.1994 0.7851
0.4361 70.43 8.063 0.7858
576.404 -2 65.29 7.781 0.2020 0.7618
0.3952 70.19 8.413 0.7623
543.161 -2 65.17 7.877 0.2044 0.7438
0.3656 70.10 8.466 0.7441
523.124 -2 65.11 7.902 0.2060 0.7298
0.3441 70.02 8.513 0.7300
512.064 -3 64.89 8.094 0.2124 0.6895
0.2852 69.78 8.715 0.6908
489.829 -4 64.84 8.119 0.2146 0.6753
0.2706 69.69 8.776 0.6754
489.693 -5 64.84 8.108 0.2145 0.6758
0.2710 69.69 8.771 0.6754
489.693 -6 64.84 8.110 0.2145 0.6758
0.2710 69.69 8.772 0.6754
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
3.58E-07 | 0.00 0.00 -0.14 0.45 -0.77 0.00 0.00 0.43
9.21E-07 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.78E-06 | 0.00 0.01 -0.99 -0.08 0.08 0.00 0.01 -0.09
2.59E-04 | 0.02 -0.02 0.04 -0.56 -0.63 0.02 -0.01 -0.53
2.55E-02 | -0.16 -0.80 0.00 0.00 0.00 0.03 0.58 0.00
6.44E-02 | 0.31 -0.52 -0.01 0.02 0.02 0.45 -0.65 0.02
3.43E-02 | -0.93 -0.06 0.00 -0.01 -0.01 0.08 -0.35 -0.01
3.90E-02 | 0.07 -0.30 -0.01 0.00 0.00 -0.89 -0.34 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 64.8394 +/- 0.192362 1
2 2 1 gaussian Sigma keV 8.11036 +/- 0.193238 1
3 3 1 gaussian norm 0.214530 +/- 0.466527E-02 1
4 4 2 powerlaw PhoIndex 0.675762 +/- 0.102680E-01 1
5 5 2 powerlaw norm 0.270954 +/- 0.118346E-01 1
6 6 3 gaussian LineE keV 69.6879 +/- 0.209945 2
7 7 3 gaussian Sigma keV 8.77178 +/- 0.211203 2
8 3 3 gaussian norm 0.214530 = par 3 2
9 8 4 powerlaw PhoIndex 0.675411 +/- 0.982619E-02 2
10 5 4 powerlaw norm 0.270954 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 489.6925 using 168 PHA bins.
Reduced chi-squared = 3.060578 for 160 degrees of freedom
Null hypothesis probability = 4.013E-35
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.932) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.932) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.434 photons ( 1.7189E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.436 photons ( 1.7380E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
129.3957
=====best line=====
64.8378 0.192149
=====best sigma=====
8.11281 0.192996
=====norm=====
0.214569 0.465927E-02
=====phoindx=====
0.675696 0.102611E-01
=====pow_norm=====
0.270884 0.118384E-01
=====best line=====
69.6874 0.209909
=====best sigma=====
8.77299 0.211110
=====norm=====
0.214569 par
=====phoindx=====
0.675358 0.981957E-02
=====pow_norm=====
0.270884 par
=====redu_chi=====
3.060581
=====area_flux=====
1.434
=====area_flux_f=====
1.436
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 7 1 640 2000 1037.4048 0 0.214569 0.465927E-02 8.11281 0.192996 0.675696 0.102611E-01 0.270884 0.118384E-01 1.434 640 2000 1114.9984 0 0.214569 0.465927E-02 8.77299 0.211110 0.675358 0.981957E-02 0.270884 0.118384E-01 1.436 3.060581 1
=====redu_chi=====
399.2402
=====best line=====
116.173 0.175551
=====best sigma=====
17.6897 0.110490
=====norm=====
1.36438 0.739547E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.677 0.168112
=====best sigma=====
15.9949 0.362923E-01
=====norm=====
1.36438 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
59.99235
=====area_flux=====
1.118
=====area_flux_f=====
1.047
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 7 1 1600 3200 1858.768 0 1.36438 0.739547E-02 283.0352 1.76784 9.50000 -1.00000 0.00000 -1.00000 1.118 1600 3200 1786.832 0 1.36438 0.739547E-02 255.9184 0.5806768 9.50000 -1.00000 0.00000 -1.00000 1.047 59.99235 1
=====redu_chi=====
208.2648
=====best line=====
64.8394 0.192362
=====best sigma=====
8.11036 0.193238
=====norm=====
0.214530 0.466527E-02
=====phoindx=====
0.675762 0.102680E-01
=====pow_norm=====
0.270954 0.118346E-01
=====best line=====
69.6879 0.209945
=====best sigma=====
8.77178 0.211203
=====norm=====
0.214530 par
=====phoindx=====
0.675411 0.982619E-02
=====pow_norm=====
0.270954 par
=====redu_chi=====
3.060578
=====area_flux=====
1.434
=====area_flux_f=====
1.436
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 7 1 640 2000 1037.4304 0 0.214530 0.466527E-02 8.11036 0.193238 0.675762 0.102680E-01 0.270954 0.118346E-01 1.434 640 2000 1115.0064 0 0.214530 0.466527E-02 8.77178 0.211203 0.675411 0.982619E-02 0.270954 0.118346E-01 1.436 3.060578 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:10 01-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 3.329 +/- 7.8457E-03
Net count rate (cts/s) for file 2 3.329 +/- 7.8457E-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 = 238174.7 using 168 PHA bins.
Reduced chi-squared = 1488.592 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17017.13 using 168 PHA bins.
Reduced chi-squared = 106.3571 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
7126.18 -3 82.45 17.27 0.3215 1.059
0.8569 82.35 17.15 1.049
5334.38 -3 73.33 17.30 0.2764 0.8260
0.3587 73.83 16.22 0.8355
1664.31 -1 72.90 7.153 0.2596 0.8040
0.4060 73.84 9.324 0.8008
742.056 -2 73.05 8.638 0.2080 0.8180
0.4505 74.65 9.504 0.8175
699.082 -2 73.40 9.139 0.2069 0.8334
0.4830 74.99 9.402 0.8329
682.947 -2 73.57 9.073 0.2060 0.8458
0.5105 75.07 9.365 0.8454
678.245 -3 73.75 9.062 0.2058 0.8804
0.5851 75.27 9.337 0.8791
659.114 -4 73.81 9.083 0.2062 0.8916
0.6208 75.33 9.343 0.8912
657.977 -5 73.82 9.088 0.2063 0.8915
0.6231 75.33 9.344 0.8917
657.975 -6 73.82 9.088 0.2063 0.8915
0.6231 75.33 9.344 0.8917
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.63E-07 | 0.00 0.00 -0.22 0.62 -0.47 0.00 0.00 0.59
1.03E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.59E-06 | 0.00 0.01 -0.98 -0.13 0.11 0.00 0.01 -0.14
7.21E-04 | 0.03 0.00 -0.01 -0.34 -0.88 0.03 0.00 -0.33
3.09E-02 | -0.13 -0.73 0.00 0.00 0.00 0.10 0.66 0.00
6.64E-02 | 0.33 -0.58 -0.01 0.01 0.02 0.40 -0.63 0.01
4.38E-02 | 0.92 0.04 0.00 0.01 0.02 -0.28 0.27 0.01
4.61E-02 | 0.16 0.36 0.00 0.01 0.03 0.87 0.30 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 73.8162 +/- 0.214576 1
2 2 1 gaussian Sigma keV 9.08772 +/- 0.211376 1
3 3 1 gaussian norm 0.206283 +/- 0.422747E-02 1
4 4 2 powerlaw PhoIndex 0.891481 +/- 0.985062E-02 1
5 5 2 powerlaw norm 0.623093 +/- 0.250422E-01 1
6 6 3 gaussian LineE keV 75.3325 +/- 0.221102 2
7 7 3 gaussian Sigma keV 9.34382 +/- 0.217843 2
8 3 3 gaussian norm 0.206283 = par 3 2
9 8 4 powerlaw PhoIndex 0.891706 +/- 0.944759E-02 2
10 5 4 powerlaw norm 0.623093 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 657.9752 using 168 PHA bins.
Reduced chi-squared = 4.112345 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 ( 3.940) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.940) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 ( 1.5822E-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 ( 1.5859E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:10 01-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 7.947 +/- 1.2123E-02
Net count rate (cts/s) for file 2 7.947 +/- 1.2123E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.618 +/- 1.4440E-02( 58.1% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.618 +/- 1.4440E-02( 58.1% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 7073629. using 198 PHA bins.
Reduced chi-squared = 37229.62 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 72558.34 using 198 PHA bins.
Reduced chi-squared = 381.8860 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
37694.5 -3 117.9 19.22 0.4669 2.815
0.1522 112.6 19.23 2.762
13190.9 -2 109.9 19.34 1.440 7.702
6.0144E-02 110.5 19.35 6.574
12740.6 0 111.6 19.35 1.442 9.263
4.1040E-03 111.0 19.36 9.243
12500.4 0 112.7 19.36 1.436 9.465
1.6356E-03 111.4 19.36 9.397
12357.2 0 113.6 19.36 1.425 9.498
7.2990E-04 111.7 19.36 9.453
12265.8 0 114.2 19.37 1.413 9.500
7.1334E-05 111.9 19.36 9.496
12207.8 0 114.6 19.37 1.402 9.500
1.8568E-05 112.1 19.37 9.499
12176.0 0 115.0 19.37 1.393 9.500
5.0576E-06 112.2 19.37 9.500
12157.5 0 115.3 19.37 1.386 9.500
1.6459E-06 112.4 19.37 9.500
12147.9 0 115.5 19.37 1.379 9.500
7.8711E-07 112.5 19.37 9.500
12145.0 0 115.6 19.37 1.374 9.500
3.5612E-07 112.6 19.37 9.500
12144.6 0 115.8 19.37 1.370 9.500
1.3886E-07 112.6 19.37 9.500
12060.7 0 115.8 19.37 1.367 9.500
4.2585E-08 112.5 19.29 9.500
11950.3 0 116.0 19.37 1.358 9.500
3.5560E-11 112.6 19.12 9.500
11945.8 0 116.0 19.37 1.355 9.500
1.7711E-11 112.6 19.10 9.500
11939.8 0 116.0 19.37 1.353 9.500
8.7991E-12 112.7 19.08 9.500
11934.4 0 116.1 19.37 1.351 9.500
4.3532E-12 112.8 19.06 9.500
11930.5 0 116.1 19.37 1.350 9.500
2.1323E-12 112.8 19.04 9.500
11927.6 0 116.1 19.37 1.348 9.500
1.0195E-12 112.8 19.03 9.500
11924.0 0 116.1 19.37 1.348 9.500
4.6447E-13 112.9 19.01 9.500
Fit parameter 5 has pegged
11792.8 0 116.1 19.37 1.340 9.500
0.000 112.6 18.52 9.500
Fit parameter 5 has pegged
11788.2 0 116.0 19.37 1.336 9.500
0.000 112.7 18.50 9.500
Fit parameter 5 has pegged
11786.0 0 116.0 19.37 1.333 9.500
0.000 112.7 18.49 9.500
Fit parameter 5 has pegged
11783.6 0 116.0 19.37 1.331 9.500
0.000 112.8 18.47 9.500
Fit parameter 5 has pegged
11781.6 0 116.1 19.37 1.330 9.500
0.000 112.8 18.46 9.500
Fit parameter 5 has pegged
11780.0 0 116.1 19.37 1.329 9.500
0.000 112.9 18.44 9.500
Fit parameter 5 has pegged
11778.6 0 116.1 19.37 1.328 9.500
0.000 112.9 18.43 9.500
Fit parameter 5 has pegged
11777.5 0 116.1 19.37 1.327 9.500
0.000 112.9 18.42 9.500
Fit parameter 5 has pegged
11776.1 0 116.1 19.37 1.326 9.500
0.000 112.9 18.42 9.500
Fit parameter 5 has pegged
11775.0 0 116.1 19.37 1.326 9.500
0.000 112.9 18.41 9.500
Fit parameter 5 has pegged
11774.1 0 116.1 19.37 1.325 9.500
0.000 113.0 18.40 9.500
Fit parameter 5 has pegged
11773.7 0 116.1 19.37 1.325 9.500
0.000 113.0 18.40 9.500
Fit parameter 5 has pegged
11773.2 0 116.1 19.37 1.325 9.500
0.000 113.0 18.39 9.500
Fit parameter 5 has pegged
11772.8 0 116.1 19.37 1.324 9.500
0.000 113.0 18.39 9.500
Fit parameter 5 has pegged
11772.3 0 116.1 19.37 1.324 9.500
0.000 113.0 18.39 9.500
Fit parameter 5 has pegged
11772.2 0 116.1 19.37 1.324 9.500
0.000 113.0 18.39 9.500
Fit parameter 5 has pegged
11771.7 0 116.1 19.37 1.324 9.500
0.000 113.0 18.38 9.500
Fit parameter 5 has pegged
11771.2 0 116.2 19.37 1.323 9.500
0.000 113.0 18.38 9.500
Fit parameter 5 has pegged
11769.1 0 116.2 19.37 1.323 9.500
0.000 113.0 18.38 9.500
Fit parameter 5 has pegged
11767.2 0 116.2 19.37 1.322 9.500
0.000 113.0 18.38 9.500
Fit parameter 5 has pegged
11765.5 0 116.3 19.37 1.322 9.500
0.000 113.0 18.38 9.500
Fit parameter 5 has pegged
11763.9 0 116.3 19.37 1.321 9.500
0.000 113.0 18.38 9.500
Fit parameter 5 has pegged
11762.5 0 116.3 19.37 1.320 9.500
0.000 113.0 18.38 9.500
Fit parameter 5 has pegged
11761.3 0 116.3 19.37 1.320 9.500
0.000 113.0 18.38 9.500
Fit parameter 5 has pegged
11760.1 0 116.4 19.37 1.319 9.500
0.000 113.0 18.38 9.500
Fit parameter 5 has pegged
11759.0 0 116.4 19.37 1.319 9.500
0.000 113.0 18.38 9.500
Fit parameter 5 has pegged
11758.1 0 116.4 19.37 1.318 9.500
0.000 113.0 18.37 9.500
Fit parameter 5 has pegged
11757.3 0 116.4 19.37 1.318 9.500
0.000 113.0 18.37 9.500
Fit parameter 5 has pegged
11756.5 0 116.5 19.37 1.317 9.500
0.000 113.0 18.37 9.500
Fit parameter 5 has pegged
11755.8 0 116.5 19.37 1.317 9.500
0.000 113.1 18.37 9.500
Fit parameter 5 has pegged
11755.1 0 116.5 19.37 1.316 9.500
0.000 113.1 18.37 9.500
Fit parameter 5 has pegged
11754.5 0 116.5 19.37 1.316 9.500
0.000 113.1 18.37 9.500
Fit parameter 5 has pegged
11754.0 0 116.5 19.37 1.316 9.500
0.000 113.1 18.37 9.500
Fit parameter 5 has pegged
11753.5 0 116.5 19.37 1.315 9.500
0.000 113.1 18.37 9.500
Fit parameter 5 has pegged
11753.1 0 116.6 19.37 1.315 9.500
0.000 113.1 18.36 9.500
Fit parameter 5 has pegged
11752.6 0 116.6 19.37 1.315 9.500
0.000 113.1 18.36 9.500
Fit parameter 5 has pegged
11752.3 0 116.6 19.37 1.314 9.500
0.000 113.1 18.36 9.500
Fit parameter 5 has pegged
11751.9 0 116.6 19.37 1.314 9.500
0.000 113.1 18.36 9.500
Fit parameter 5 has pegged
11751.5 0 116.6 19.37 1.314 9.500
0.000 113.1 18.36 9.500
Fit parameter 5 has pegged
11751.3 0 116.6 19.37 1.313 9.500
0.000 113.1 18.36 9.500
Fit parameter 5 has pegged
11751.0 0 116.6 19.37 1.313 9.500
0.000 113.1 18.35 9.500
Fit parameter 5 has pegged
11750.7 0 116.6 19.37 1.313 9.500
0.000 113.1 18.35 9.500
Fit parameter 5 has pegged
11750.4 0 116.6 19.37 1.313 9.500
0.000 113.1 18.35 9.500
Fit parameter 5 has pegged
11750.3 0 116.7 19.37 1.312 9.500
0.000 113.1 18.35 9.500
Fit parameter 5 has pegged
11750.0 0 116.7 19.37 1.312 9.500
0.000 113.1 18.35 9.500
Fit parameter 5 has pegged
11749.8 0 116.7 19.37 1.312 9.500
0.000 113.1 18.35 9.500
Fit parameter 5 has pegged
11749.6 0 116.7 19.37 1.312 9.500
0.000 113.1 18.35 9.500
Fit parameter 5 has pegged
11749.4 0 116.7 19.37 1.311 9.500
0.000 113.1 18.34 9.500
Fit parameter 5 has pegged
11749.2 0 116.7 19.37 1.311 9.500
0.000 113.1 18.34 9.500
Fit parameter 5 has pegged
11749.0 0 116.7 19.37 1.311 9.500
0.000 113.1 18.34 9.500
Fit parameter 5 has pegged
11748.9 0 116.7 19.37 1.311 9.500
0.000 113.1 18.34 9.500
Fit parameter 5 has pegged
11748.8 0 116.7 19.37 1.310 9.500
0.000 113.1 18.34 9.500
Fit parameter 5 has pegged
11748.6 0 116.7 19.37 1.310 9.500
0.000 113.2 18.34 9.500
Fit parameter 5 has pegged
11748.6 0 116.7 19.37 1.310 9.500
0.000 113.2 18.33 9.500
Fit parameter 5 has pegged
11748.4 0 116.7 19.37 1.310 9.500
0.000 113.2 18.33 9.500
Fit parameter 5 has pegged
11748.3 0 116.7 19.37 1.310 9.500
0.000 113.2 18.33 9.500
Fit parameter 5 has pegged
11748.2 0 116.7 19.37 1.310 9.500
0.000 113.2 18.33 9.500
Fit parameter 5 has pegged
11748.0 0 116.7 19.37 1.309 9.500
0.000 113.2 18.33 9.500
Fit parameter 5 has pegged
11747.9 0 116.7 19.37 1.309 9.500
0.000 113.2 18.33 9.500
Fit parameter 5 has pegged
11747.9 0 116.7 19.37 1.309 9.500
0.000 113.2 18.33 9.500
Fit parameter 5 has pegged
11747.7 0 116.7 19.37 1.309 9.500
0.000 113.2 18.32 9.500
Fit parameter 5 has pegged
11747.7 0 116.7 19.37 1.309 9.500
0.000 113.2 18.32 9.500
Fit parameter 5 has pegged
11747.6 0 116.7 19.37 1.309 9.500
0.000 113.2 18.32 9.500
Fit parameter 5 has pegged
11747.5 0 116.7 19.37 1.309 9.500
0.000 113.2 18.32 9.500
Fit parameter 5 has pegged
11747.5 0 116.8 19.37 1.308 9.500
0.000 113.2 18.32 9.500
11747.3 0 116.8 19.37 1.308 9.500
0.000 113.2 18.32 9.500
Fit parameter 5 has pegged
11747.3 0 116.8 19.37 1.308 9.500
0.000 113.2 18.32 9.500
Fit parameter 5 has pegged
11747.2 0 116.8 19.37 1.308 9.500
0.000 113.2 18.32 9.500
Fit parameter 5 has pegged
11747.1 0 116.8 19.37 1.308 9.500
0.000 113.2 18.32 9.500
Fit parameter 5 has pegged
11747.0 0 116.8 19.37 1.308 9.500
0.000 113.2 18.32 9.500
Fit parameter 5 has pegged
11747.0 0 116.8 19.37 1.308 9.500
0.000 113.2 18.31 9.500
Fit parameter 5 has pegged
11746.9 0 116.8 19.37 1.308 9.500
0.000 113.2 18.31 9.500
Fit parameter 5 has pegged
11746.9 2 116.8 19.37 1.308 9.500
0.000 113.2 18.31 9.500
Fit parameter 5 has pegged
11746.9 2 116.8 19.37 1.308 9.500
0.000 113.2 18.31 9.500
11746.9 3 116.8 19.37 1.308 9.500
0.000 113.2 18.31 9.500
Fit parameter 5 has pegged
11746.9 4 116.8 19.37 1.308 9.500
0.000 113.2 18.31 9.500
11746.9 5 116.8 19.37 1.308 9.500
0.000 113.2 18.31 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.73E-05 | -0.01 0.00 -1.00 -0.01 0.01
1.21E-02 | 0.06 0.00 0.01 -0.77 -0.63
2.15E-02 | -0.99 -0.07 0.01 0.04 -0.15
6.82E-02 | 0.14 0.06 -0.01 0.63 -0.76
2.89E+00 | -0.08 1.00 0.00 -0.04 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 116.774 +/- 0.199958 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.69264 1
3 3 1 gaussian norm 1.30753 +/- 0.753457E-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 113.229 +/- 0.195408 2
7 7 3 gaussian Sigma keV 18.3118 +/- 0.219716 2
8 3 3 gaussian norm 1.30753 = 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 = 11746.86 using 198 PHA bins.
Reduced chi-squared = 61.82557 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 ( 59.629) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 59.629) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.055 photons ( 2.0847E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.000 photons ( 1.9323E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:10 01-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 3.329 +/- 7.8457E-03
Net count rate (cts/s) for file 2 3.329 +/- 7.8457E-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 = 301637.5 using 168 PHA bins.
Reduced chi-squared = 1885.234 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 27428.84 using 168 PHA bins.
Reduced chi-squared = 171.4303 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
7241.58 -3 85.77 15.09 0.1919 1.014
0.8231 85.41 14.77 1.002
2346.83 -4 68.47 18.39 0.3173 0.9223
0.6336 69.21 17.92 0.9261
1457.06 0 72.03 13.34 0.3198 0.9219
0.6354 72.64 16.08 0.9238
746.483 -1 74.23 10.30 0.2339 0.9124
0.6618 75.68 9.387 0.9139
682.187 -2 74.12 9.831 0.2045 0.9056
0.6631 75.46 9.298 0.9058
659.473 -3 73.97 8.927 0.2047 0.8958
0.6362 75.37 9.302 0.8965
658.150 -4 73.79 9.152 0.2071 0.8913
0.6226 75.33 9.373 0.8917
657.997 -5 73.83 9.065 0.2060 0.8916
0.6236 75.34 9.330 0.8918
657.980 -6 73.81 9.097 0.2064 0.8914
0.6229 75.33 9.350 0.8917
657.976 -7 73.82 9.084 0.2062 0.8915
0.6232 75.33 9.342 0.8917
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.63E-07 | 0.00 0.00 -0.22 0.62 -0.47 0.00 0.00 0.59
1.03E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.60E-06 | 0.00 0.01 -0.98 -0.13 0.11 0.00 0.01 -0.14
7.21E-04 | 0.03 0.00 -0.01 -0.34 -0.88 0.03 0.00 -0.33
3.09E-02 | -0.13 -0.73 0.00 0.00 0.00 0.10 0.66 0.00
6.65E-02 | 0.33 -0.58 -0.01 0.01 0.02 0.39 -0.63 0.01
4.39E-02 | -0.92 -0.04 0.00 -0.01 -0.02 0.28 -0.27 -0.01
4.61E-02 | -0.17 -0.36 0.00 -0.01 -0.03 -0.87 -0.30 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 73.8183 +/- 0.214770 1
2 2 1 gaussian Sigma keV 9.08449 +/- 0.211586 1
3 3 1 gaussian norm 0.206235 +/- 0.423125E-02 1
4 4 2 powerlaw PhoIndex 0.891503 +/- 0.985226E-02 1
5 5 2 powerlaw norm 0.623167 +/- 0.250403E-01 1
6 6 3 gaussian LineE keV 75.3331 +/- 0.221169 2
7 7 3 gaussian Sigma keV 9.34153 +/- 0.217946 2
8 3 3 gaussian norm 0.206235 = par 3 2
9 8 4 powerlaw PhoIndex 0.891724 +/- 0.944917E-02 2
10 5 4 powerlaw norm 0.623167 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 657.9764 using 168 PHA bins.
Reduced chi-squared = 4.112352 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 ( 3.940) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.940) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 ( 1.5822E-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 ( 1.5859E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
106.3571
=====best line=====
73.8162 0.214576
=====best sigma=====
9.08772 0.211376
=====norm=====
0.206283 0.422747E-02
=====phoindx=====
0.891481 0.985062E-02
=====pow_norm=====
0.623093 0.250422E-01
=====best line=====
75.3325 0.221102
=====best sigma=====
9.34382 0.217843
=====norm=====
0.206283 par
=====phoindx=====
0.891706 0.944759E-02
=====pow_norm=====
0.623093 par
=====redu_chi=====
4.112345
=====area_flux=====
1.321
=====area_flux_f=====
1.320
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 8 1 640 2000 1181.0592 0 0.206283 0.422747E-02 9.08772 0.211376 0.891481 0.985062E-02 0.623093 0.250422E-01 1.321 640 2000 1205.32 0 0.206283 0.422747E-02 9.34382 0.217843 0.891706 0.944759E-02 0.623093 0.250422E-01 1.320 4.112345 1
=====redu_chi=====
381.8860
=====best line=====
116.774 0.199958
=====best sigma=====
19.3655 1.69264
=====norm=====
1.30753 0.753457E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.229 0.195408
=====best sigma=====
18.3118 0.219716
=====norm=====
1.30753 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
61.82557
=====area_flux=====
1.055
=====area_flux_f=====
1.000
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 8 1 1600 3200 1868.384 0 1.30753 0.753457E-02 309.848 27.08224 9.50000 -1.00000 0.00000 -1.00000 1.055 1600 3200 1811.664 0 1.30753 0.753457E-02 292.9888 3.515456 9.50000 -1.00000 0.00000 -1.00000 1.000 61.82557 1
=====redu_chi=====
171.4303
=====best line=====
73.8183 0.214770
=====best sigma=====
9.08449 0.211586
=====norm=====
0.206235 0.423125E-02
=====phoindx=====
0.891503 0.985226E-02
=====pow_norm=====
0.623167 0.250403E-01
=====best line=====
75.3331 0.221169
=====best sigma=====
9.34153 0.217946
=====norm=====
0.206235 par
=====phoindx=====
0.891724 0.944917E-02
=====pow_norm=====
0.623167 par
=====redu_chi=====
4.112352
=====area_flux=====
1.321
=====area_flux_f=====
1.320
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 8 1 640 2000 1181.0928 0 0.206235 0.423125E-02 9.08449 0.211586 0.891503 0.985226E-02 0.623167 0.250403E-01 1.321 640 2000 1205.3296 0 0.206235 0.423125E-02 9.34153 0.217946 0.891724 0.944917E-02 0.623167 0.250403E-01 1.320 4.112352 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:10 01-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 3.156 +/- 7.6393E-03
Net count rate (cts/s) for file 2 3.156 +/- 7.6393E-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 = 270417.8 using 168 PHA bins.
Reduced chi-squared = 1690.112 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15263.80 using 168 PHA bins.
Reduced chi-squared = 95.39878 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5151.60 -3 82.33 16.66 0.2572 1.026
0.7717 82.58 16.38 1.016
1316.70 -3 74.84 7.556 0.1315 0.8396
0.4830 76.11 7.779 0.8462
1300.68 -3 75.99 10.33 0.1949 0.9361
0.6585 77.65 13.49 0.9328
870.779 -4 76.70 9.670 0.1697 0.9817
0.8413 78.37 9.246 0.9793
674.236 -5 76.24 9.031 0.1959 0.9807
0.8512 77.71 9.721 0.9809
673.036 -6 76.25 9.225 0.1969 0.9801
0.8486 77.75 9.633 0.9803
672.995 -7 76.27 9.180 0.1965 0.9801
0.8491 77.75 9.634 0.9804
672.991 -8 76.27 9.195 0.1966 0.9801
0.8490 77.75 9.639 0.9804
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.06E-07 | 0.00 0.00 -0.25 0.65 -0.36 0.00 0.00 0.62
1.11E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.04E-06 | 0.00 0.01 -0.97 -0.16 0.11 0.00 0.01 -0.17
1.31E-03 | 0.04 0.01 -0.01 -0.27 -0.93 0.04 0.01 -0.26
3.28E-02 | -0.16 -0.76 0.00 0.00 0.00 0.11 0.62 0.00
7.00E-02 | 0.26 -0.56 -0.01 0.00 0.01 0.39 -0.68 0.00
4.59E-02 | 0.94 -0.02 0.00 0.01 0.03 -0.21 0.26 0.01
5.06E-02 | 0.13 0.33 0.00 0.01 0.04 0.89 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 76.2675 +/- 0.217292 1
2 2 1 gaussian Sigma keV 9.19546 +/- 0.215568 1
3 3 1 gaussian norm 0.196643 +/- 0.411162E-02 1
4 4 2 powerlaw PhoIndex 0.980140 +/- 0.104169E-01 1
5 5 2 powerlaw norm 0.849025 +/- 0.355177E-01 1
6 6 3 gaussian LineE keV 77.7502 +/- 0.230420 2
7 7 3 gaussian Sigma keV 9.63873 +/- 0.228998 2
8 3 3 gaussian norm 0.196643 = par 3 2
9 8 4 powerlaw PhoIndex 0.980406 +/- 0.100012E-01 2
10 5 4 powerlaw norm 0.849025 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 672.9908 using 168 PHA bins.
Reduced chi-squared = 4.206192 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 ( 4.030) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.030) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.238 photons ( 1.4789E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.237 photons ( 1.4821E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:10 01-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 7.299 +/- 1.1618E-02
Net count rate (cts/s) for file 2 7.299 +/- 1.1618E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.143 +/- 1.3905E-02( 56.8% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.143 +/- 1.3905E-02( 56.8% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 6679793. using 198 PHA bins.
Reduced chi-squared = 35156.80 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 74558.30 using 198 PHA bins.
Reduced chi-squared = 392.4121 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
40072.8 -3 115.6 19.10 0.4650 2.839
0.1689 110.3 19.10 2.789
14753.8 -2 109.8 19.31 1.564 9.343
3.1680E-02 110.6 19.30 9.244
14678.6 -1 110.9 19.35 1.588 9.472
1.1800E-02 110.5 19.35 9.440
14460.0 -1 111.5 19.36 1.581 9.497
5.1545E-03 110.6 19.36 9.493
14339.7 -1 111.8 19.36 1.578 9.499
2.3817E-03 110.6 19.36 9.498
14229.0 -1 112.1 19.37 1.572 9.500
6.2972E-04 110.7 19.36 9.500
14166.0 -1 112.2 19.37 1.569 9.500
1.1325E-04 110.8 19.37 9.500
14114.4 -1 112.3 19.37 1.566 9.500
4.4570E-05 110.9 19.37 9.500
14090.8 -1 112.4 19.37 1.564 9.500
1.0156E-05 110.9 19.37 9.500
14042.6 -1 112.4 19.37 1.561 9.500
1.4451E-06 111.0 19.37 9.500
13809.4 -1 112.7 19.37 1.545 9.500
4.9683E-08 111.1 19.37 9.500
13777.7 -1 112.8 19.37 1.544 9.500
2.0079E-08 111.1 19.37 9.500
13727.1 -1 112.9 19.37 1.540 9.500
5.3915E-09 111.1 19.37 9.500
13619.2 -1 113.0 19.37 1.532 9.500
1.7585E-09 111.3 19.37 9.500
13591.2 -1 113.1 19.37 1.530 9.500
8.3834E-10 111.3 19.37 9.500
12970.5 0 113.8 19.37 1.474 9.500
2.3770E-10 111.6 19.37 9.500
12620.6 0 114.5 19.37 1.438 9.500
8.7562E-11 111.9 19.37 9.500
12408.3 0 115.1 19.37 1.412 9.500
1.2187E-11 112.3 19.37 9.500
12278.1 0 115.6 19.37 1.394 9.500
2.6452E-12 112.6 19.37 9.500
12198.4 0 116.0 19.37 1.380 9.500
2.2210E-13 112.8 19.37 9.500
Fit parameter 5 has pegged
11989.7 0 116.5 19.37 1.355 9.500
0.000 112.8 18.61 9.500
Fit parameter 5 has pegged
11917.0 0 116.7 19.37 1.342 9.500
0.000 113.1 18.72 9.500
Fit parameter 5 has pegged
11881.4 0 116.8 19.37 1.334 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
11856.9 0 117.0 19.37 1.328 9.500
0.000 113.4 18.65 9.500
Fit parameter 5 has pegged
11839.6 0 117.1 19.37 1.323 9.500
0.000 113.6 18.60 9.500
Fit parameter 5 has pegged
11825.2 0 117.1 19.37 1.319 9.500
0.000 113.7 18.57 9.500
Fit parameter 5 has pegged
11814.2 0 117.2 19.37 1.316 9.500
0.000 113.7 18.53 9.500
Fit parameter 5 has pegged
11805.0 0 117.3 19.37 1.313 9.500
0.000 113.8 18.51 9.500
Fit parameter 5 has pegged
11799.1 0 117.3 19.37 1.311 9.500
0.000 113.9 18.48 9.500
Fit parameter 5 has pegged
11794.4 0 117.3 19.37 1.309 9.500
0.000 114.0 18.46 9.500
Fit parameter 5 has pegged
11791.1 0 117.4 19.37 1.308 9.500
0.000 114.0 18.44 9.500
Fit parameter 5 has pegged
11787.4 0 117.4 19.37 1.307 9.500
0.000 114.0 18.42 9.500
Fit parameter 5 has pegged
11784.9 0 117.4 19.37 1.306 9.500
0.000 114.1 18.42 9.500
Fit parameter 5 has pegged
11782.5 0 117.4 19.37 1.305 9.500
0.000 114.1 18.40 9.500
Fit parameter 5 has pegged
11781.1 0 117.4 19.37 1.304 9.500
0.000 114.1 18.40 9.500
Fit parameter 5 has pegged
11779.4 0 117.5 19.37 1.303 9.500
0.000 114.1 18.39 9.500
Fit parameter 5 has pegged
11778.1 0 117.5 19.37 1.303 9.500
0.000 114.2 18.38 9.500
Fit parameter 5 has pegged
11776.8 0 117.5 19.37 1.302 9.500
0.000 114.2 18.38 9.500
Fit parameter 5 has pegged
11776.1 0 117.5 19.37 1.302 9.500
0.000 114.2 18.37 9.500
Fit parameter 5 has pegged
11775.4 0 117.5 19.37 1.302 9.500
0.000 114.2 18.37 9.500
Fit parameter 5 has pegged
11775.4 0 117.5 19.37 1.302 9.500
0.000 114.2 18.37 9.500
11768.9 0 117.6 19.37 1.300 9.500
0.000 114.2 18.37 9.500
Fit parameter 5 has pegged
11766.0 0 117.6 19.37 1.299 9.500
0.000 114.2 18.37 9.500
Fit parameter 5 has pegged
11763.6 0 117.7 19.37 1.298 9.500
0.000 114.2 18.37 9.500
Fit parameter 5 has pegged
11761.3 0 117.7 19.37 1.297 9.500
0.000 114.2 18.37 9.500
Fit parameter 5 has pegged
11759.4 0 117.7 19.37 1.297 9.500
0.000 114.2 18.36 9.500
Fit parameter 5 has pegged
11757.6 0 117.8 19.37 1.296 9.500
0.000 114.2 18.36 9.500
Fit parameter 5 has pegged
11755.9 0 117.8 19.37 1.295 9.500
0.000 114.2 18.36 9.500
Fit parameter 5 has pegged
11754.4 0 117.8 19.37 1.295 9.500
0.000 114.2 18.36 9.500
Fit parameter 5 has pegged
11753.0 0 117.9 19.37 1.294 9.500
0.000 114.2 18.36 9.500
Fit parameter 5 has pegged
11751.8 0 117.9 19.37 1.294 9.500
0.000 114.2 18.35 9.500
Fit parameter 5 has pegged
11750.6 0 117.9 19.37 1.293 9.500
0.000 114.3 18.35 9.500
Fit parameter 5 has pegged
11749.6 0 117.9 19.37 1.292 9.500
0.000 114.3 18.35 9.500
Fit parameter 5 has pegged
11748.7 0 117.9 19.37 1.292 9.500
0.000 114.3 18.35 9.500
Fit parameter 5 has pegged
11747.8 0 118.0 19.37 1.291 9.500
0.000 114.3 18.35 9.500
Fit parameter 5 has pegged
11746.9 0 118.0 19.37 1.291 9.500
0.000 114.3 18.34 9.500
Fit parameter 5 has pegged
11746.2 0 118.0 19.37 1.291 9.500
0.000 114.3 18.34 9.500
Fit parameter 5 has pegged
11745.5 0 118.0 19.37 1.290 9.500
0.000 114.3 18.34 9.500
Fit parameter 5 has pegged
11744.9 0 118.0 19.37 1.290 9.500
0.000 114.3 18.34 9.500
Fit parameter 5 has pegged
11744.3 0 118.0 19.37 1.289 9.500
0.000 114.3 18.34 9.500
Fit parameter 5 has pegged
11743.8 0 118.1 19.37 1.289 9.500
0.000 114.3 18.33 9.500
Fit parameter 5 has pegged
11743.3 0 118.1 19.37 1.289 9.500
0.000 114.3 18.33 9.500
Fit parameter 5 has pegged
11742.8 0 118.1 19.37 1.288 9.500
0.000 114.3 18.33 9.500
Fit parameter 5 has pegged
11742.4 0 118.1 19.37 1.288 9.500
0.000 114.3 18.33 9.500
Fit parameter 5 has pegged
11742.0 0 118.1 19.37 1.288 9.500
0.000 114.3 18.33 9.500
Fit parameter 5 has pegged
11741.6 0 118.1 19.37 1.287 9.500
0.000 114.3 18.32 9.500
Fit parameter 5 has pegged
11741.2 0 118.1 19.37 1.287 9.500
0.000 114.3 18.32 9.500
Fit parameter 5 has pegged
11740.9 0 118.1 19.37 1.287 9.500
0.000 114.3 18.32 9.500
Fit parameter 5 has pegged
11740.6 0 118.1 19.37 1.286 9.500
0.000 114.3 18.32 9.500
Fit parameter 5 has pegged
11740.3 0 118.2 19.37 1.286 9.500
0.000 114.4 18.31 9.500
Fit parameter 5 has pegged
11740.0 0 118.2 19.37 1.286 9.500
0.000 114.4 18.31 9.500
Fit parameter 5 has pegged
11739.8 0 118.2 19.37 1.286 9.500
0.000 114.4 18.31 9.500
Fit parameter 5 has pegged
11739.5 0 118.2 19.37 1.285 9.500
0.000 114.4 18.31 9.500
Fit parameter 5 has pegged
11739.4 0 118.2 19.37 1.285 9.500
0.000 114.4 18.31 9.500
Fit parameter 5 has pegged
11739.1 0 118.2 19.37 1.285 9.500
0.000 114.4 18.31 9.500
Fit parameter 5 has pegged
11738.9 0 118.2 19.37 1.285 9.500
0.000 114.4 18.30 9.500
Fit parameter 5 has pegged
11738.7 0 118.2 19.37 1.285 9.500
0.000 114.4 18.30 9.500
Fit parameter 5 has pegged
11738.5 0 118.2 19.37 1.284 9.500
0.000 114.4 18.30 9.500
Fit parameter 5 has pegged
11738.4 0 118.2 19.37 1.284 9.500
0.000 114.4 18.30 9.500
Fit parameter 5 has pegged
11738.2 0 118.2 19.37 1.284 9.500
0.000 114.4 18.30 9.500
Fit parameter 5 has pegged
11738.1 0 118.2 19.37 1.284 9.500
0.000 114.4 18.29 9.500
Fit parameter 5 has pegged
11737.9 0 118.2 19.37 1.284 9.500
0.000 114.4 18.29 9.500
Fit parameter 5 has pegged
11737.7 0 118.2 19.37 1.283 9.500
0.000 114.4 18.29 9.500
Fit parameter 5 has pegged
11737.7 0 118.2 19.37 1.283 9.500
0.000 114.4 18.29 9.500
Fit parameter 5 has pegged
11737.5 0 118.2 19.37 1.283 9.500
0.000 114.4 18.29 9.500
Fit parameter 5 has pegged
11737.4 0 118.2 19.37 1.283 9.500
0.000 114.4 18.29 9.500
Fit parameter 5 has pegged
11737.3 0 118.2 19.37 1.283 9.500
0.000 114.4 18.28 9.500
Fit parameter 5 has pegged
11737.2 0 118.2 19.37 1.283 9.500
0.000 114.4 18.28 9.500
Fit parameter 5 has pegged
11737.1 0 118.3 19.37 1.283 9.500
0.000 114.4 18.28 9.500
Fit parameter 5 has pegged
11737.0 0 118.3 19.37 1.282 9.500
0.000 114.4 18.28 9.500
Fit parameter 5 has pegged
11736.9 0 118.3 19.37 1.282 9.500
0.000 114.4 18.28 9.500
Fit parameter 5 has pegged
11736.8 0 118.3 19.37 1.282 9.500
0.000 114.5 18.28 9.500
Fit parameter 5 has pegged
11736.7 0 118.3 19.37 1.282 9.500
0.000 114.5 18.28 9.500
Fit parameter 5 has pegged
11736.6 0 118.3 19.37 1.282 9.500
0.000 114.5 18.27 9.500
Fit parameter 5 has pegged
11736.5 0 118.3 19.37 1.282 9.500
0.000 114.5 18.27 9.500
Fit parameter 5 has pegged
11736.5 0 118.3 19.37 1.282 9.500
0.000 114.5 18.27 9.500
Fit parameter 5 has pegged
11736.4 0 118.3 19.37 1.282 9.500
0.000 114.5 18.27 9.500
Fit parameter 5 has pegged
11736.3 0 118.3 19.37 1.281 9.500
0.000 114.5 18.27 9.500
Fit parameter 5 has pegged
11736.3 0 118.3 19.37 1.281 9.500
0.000 114.5 18.27 9.500
Fit parameter 5 has pegged
11736.2 0 118.3 19.37 1.281 9.500
0.000 114.5 18.27 9.500
Fit parameter 5 has pegged
11736.1 0 118.3 19.37 1.281 9.500
0.000 114.5 18.26 9.500
Fit parameter 5 has pegged
11736.1 0 118.3 19.37 1.281 9.500
0.000 114.5 18.26 9.500
Fit parameter 5 has pegged
11736.0 0 118.3 19.37 1.281 9.500
0.000 114.5 18.26 9.500
Fit parameter 5 has pegged
11736.0 0 118.3 19.37 1.281 9.500
0.000 114.5 18.26 9.500
Fit parameter 5 has pegged
11735.9 0 118.3 19.37 1.281 9.500
0.000 114.5 18.26 9.500
Fit parameter 5 has pegged
11735.9 0 118.3 19.37 1.281 9.500
0.000 114.5 18.26 9.500
Fit parameter 5 has pegged
11735.8 0 118.3 19.37 1.281 9.500
0.000 114.5 18.26 9.500
Fit parameter 5 has pegged
11735.8 0 118.3 19.37 1.281 9.500
0.000 114.5 18.26 9.500
Fit parameter 5 has pegged
11735.7 0 118.3 19.37 1.280 9.500
0.000 114.5 18.26 9.500
Fit parameter 5 has pegged
11735.7 0 118.3 19.37 1.280 9.500
0.000 114.5 18.25 9.500
Fit parameter 5 has pegged
11735.7 3 118.3 19.37 1.280 9.500
0.000 114.5 18.25 9.500
11735.7 4 118.3 19.37 1.280 9.500
0.000 114.5 18.25 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.52E-05 | -0.01 0.00 -1.00 -0.01 0.01
1.11E-02 | 0.04 0.00 0.00 -0.75 -0.66
2.11E-02 | -0.99 -0.06 0.01 0.06 -0.13
5.93E-02 | 0.13 0.05 -0.01 0.65 -0.74
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 118.293 +/- 0.188504 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.71123 1
3 3 1 gaussian norm 1.28038 +/- 0.693189E-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 114.511 +/- 0.185318 2
7 7 3 gaussian Sigma keV 18.2546 +/- 0.200620 2
8 3 3 gaussian norm 1.28038 = 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 = 11735.65 using 198 PHA bins.
Reduced chi-squared = 61.76660 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 ( 59.572) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 59.572) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.059 photons ( 2.1095E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.007 photons ( 1.9567E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:11 01-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 3.156 +/- 7.6393E-03
Net count rate (cts/s) for file 2 3.156 +/- 7.6393E-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 = 329551.9 using 168 PHA bins.
Reduced chi-squared = 2059.700 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 23923.52 using 168 PHA bins.
Reduced chi-squared = 149.5220 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
9070.32 -3 85.33 14.50 0.1814 1.051
0.8333 85.39 13.85 1.039
1864.05 -4 71.17 15.76 0.2167 0.8918
0.5690 73.06 14.42 0.8984
1584.03 -2 80.01 7.048 0.1145 0.9222
0.6841 79.85 8.678 0.9171
1033.33 -3 76.16 12.77 0.1862 0.9748
0.8170 76.96 9.982 0.9729
738.262 -4 77.28 9.347 0.1772 0.9835
0.8730 78.03 9.571 0.9834
673.783 -5 76.15 9.304 0.1972 0.9803
0.8497 77.72 9.677 0.9808
673.062 -6 76.29 9.145 0.1960 0.9801
0.8493 77.75 9.613 0.9803
672.999 -7 76.26 9.208 0.1968 0.9802
0.8490 77.75 9.646 0.9804
672.992 -8 76.27 9.186 0.1965 0.9801
0.8490 77.75 9.633 0.9804
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.06E-07 | 0.00 0.00 -0.25 0.65 -0.36 0.00 0.00 0.62
1.11E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.07E-06 | 0.00 0.01 -0.97 -0.16 0.11 0.00 0.01 -0.17
1.31E-03 | 0.04 0.01 -0.01 -0.27 -0.93 0.04 0.01 -0.26
3.29E-02 | -0.16 -0.76 0.00 0.00 0.00 0.11 0.62 0.00
7.03E-02 | 0.26 -0.56 -0.01 0.00 0.01 0.39 -0.68 0.00
4.62E-02 | 0.94 -0.02 0.00 0.01 0.03 -0.22 0.26 0.01
5.07E-02 | 0.14 0.33 0.00 0.01 0.04 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 76.2713 +/- 0.217899 1
2 2 1 gaussian Sigma keV 9.18608 +/- 0.216229 1
3 3 1 gaussian norm 0.196524 +/- 0.412154E-02 1
4 4 2 powerlaw PhoIndex 0.980118 +/- 0.104238E-01 1
5 5 2 powerlaw norm 0.849041 +/- 0.355384E-01 1
6 6 3 gaussian LineE keV 77.7511 +/- 0.230504 2
7 7 3 gaussian Sigma keV 9.63320 +/- 0.229197 2
8 3 3 gaussian norm 0.196524 = par 3 2
9 8 4 powerlaw PhoIndex 0.980385 +/- 0.100078E-01 2
10 5 4 powerlaw norm 0.849041 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 672.9916 using 168 PHA bins.
Reduced chi-squared = 4.206198 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 ( 4.030) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 4.030) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.238 photons ( 1.4789E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.237 photons ( 1.4821E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
95.39878
=====best line=====
76.2675 0.217292
=====best sigma=====
9.19546 0.215568
=====norm=====
0.196643 0.411162E-02
=====phoindx=====
0.980140 0.104169E-01
=====pow_norm=====
0.849025 0.355177E-01
=====best line=====
77.7502 0.230420
=====best sigma=====
9.63873 0.228998
=====norm=====
0.196643 par
=====phoindx=====
0.980406 0.100012E-01
=====pow_norm=====
0.849025 par
=====redu_chi=====
4.206192
=====area_flux=====
1.238
=====area_flux_f=====
1.237
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 9 1 640 2000 1220.28 0 0.196643 0.411162E-02 9.19546 0.215568 0.980140 0.104169E-01 0.849025 0.355177E-01 1.238 640 2000 1244.0032 0 0.196643 0.411162E-02 9.63873 0.228998 0.980406 0.100012E-01 0.849025 0.355177E-01 1.237 4.206192 1
=====redu_chi=====
392.4121
=====best line=====
118.293 0.188504
=====best sigma=====
19.3655 1.71123
=====norm=====
1.28038 0.693189E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.511 0.185318
=====best sigma=====
18.2546 0.200620
=====norm=====
1.28038 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
61.76660
=====area_flux=====
1.059
=====area_flux_f=====
1.007
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 9 1 1600 3200 1892.688 0 1.28038 0.693189E-02 309.848 27.37968 9.50000 -1.00000 0.00000 -1.00000 1.059 1600 3200 1832.176 0 1.28038 0.693189E-02 292.0736 3.20992 9.50000 -1.00000 0.00000 -1.00000 1.007 61.76660 1
=====redu_chi=====
149.5220
=====best line=====
76.2713 0.217899
=====best sigma=====
9.18608 0.216229
=====norm=====
0.196524 0.412154E-02
=====phoindx=====
0.980118 0.104238E-01
=====pow_norm=====
0.849041 0.355384E-01
=====best line=====
77.7511 0.230504
=====best sigma=====
9.63320 0.229197
=====norm=====
0.196524 par
=====phoindx=====
0.980385 0.100078E-01
=====pow_norm=====
0.849041 par
=====redu_chi=====
4.206198
=====area_flux=====
1.238
=====area_flux_f=====
1.237
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 9 1 640 2000 1220.3408 0 0.196524 0.412154E-02 9.18608 0.216229 0.980118 0.104238E-01 0.849041 0.355384E-01 1.238 640 2000 1244.0176 0 0.196524 0.412154E-02 9.63320 0.229197 0.980385 0.100078E-01 0.849041 0.355384E-01 1.237 4.206198 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:11 01-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 3.257 +/- 7.7608E-03
Net count rate (cts/s) for file 2 3.257 +/- 7.7608E-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 = 281282.1 using 168 PHA bins.
Reduced chi-squared = 1758.013 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18913.57 using 168 PHA bins.
Reduced chi-squared = 118.2098 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
12326.8 -3 81.28 16.70 0.2565 1.115
0.9283 81.05 16.74 1.103
3419.61 -3 73.35 6.925 0.1503 0.8815
0.6765 72.53 6.910 0.8934
1322.50 -4 74.97 9.804 0.2074 1.029
0.9778 75.02 12.91 1.028
1022.01 -5 76.10 8.669 0.2013 1.106
1.367 76.69 9.490 1.104
555.987 -6 75.66 9.601 0.2211 1.095
1.381 75.84 9.718 1.096
554.164 -7 75.80 9.308 0.2184 1.094
1.380 75.91 9.585 1.095
553.970 -8 75.74 9.405 0.2198 1.094
1.378 75.90 9.639 1.095
553.948 -9 75.76 9.372 0.2193 1.094
1.378 75.90 9.620 1.095
553.946 -10 75.75 9.383 0.2195 1.094
1.378 75.90 9.626 1.095
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.00E-06 | 0.00 0.00 -0.26 0.69 -0.23 0.00 0.00 0.64
1.14E-06 | 0.00 0.00 -0.01 -0.68 0.00 0.00 0.00 0.73
9.55E-06 | 0.00 0.01 -0.96 -0.18 0.07 0.00 0.01 -0.18
3.11E-03 | 0.07 0.02 -0.01 -0.17 -0.97 0.07 0.02 -0.17
2.81E-02 | -0.15 -0.72 0.00 0.00 0.00 0.14 0.66 0.00
6.09E-02 | 0.32 -0.57 -0.01 0.00 0.03 0.40 -0.64 0.00
3.99E-02 | 0.92 0.01 0.00 0.01 0.05 -0.27 0.28 0.01
4.20E-02 | 0.16 0.38 0.01 0.02 0.08 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 75.7522 +/- 0.204023 1
2 2 1 gaussian Sigma keV 9.38279 +/- 0.202051 1
3 3 1 gaussian norm 0.219478 +/- 0.421103E-02 1
4 4 2 powerlaw PhoIndex 1.09403 +/- 0.103973E-01 1
5 5 2 powerlaw norm 1.37778 +/- 0.574526E-01 1
6 6 3 gaussian LineE keV 75.8993 +/- 0.210894 2
7 7 3 gaussian Sigma keV 9.62638 +/- 0.208668 2
8 3 3 gaussian norm 0.219478 = par 3 2
9 8 4 powerlaw PhoIndex 1.09524 +/- 0.997139E-02 2
10 5 4 powerlaw norm 1.37778 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 553.9462 using 168 PHA bins.
Reduced chi-squared = 3.462163 for 160 degrees of freedom
Null hypothesis probability = 7.006E-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 ( 3.317) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.317) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.261 photons ( 1.4907E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.256 photons ( 1.4848E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:11 01-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 7.722 +/- 1.1950E-02
Net count rate (cts/s) for file 2 7.722 +/- 1.1950E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.465 +/- 1.4249E-02( 57.8% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.465 +/- 1.4249E-02( 57.8% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 6258126. using 198 PHA bins.
Reduced chi-squared = 32937.50 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 77009.73 using 198 PHA bins.
Reduced chi-squared = 405.3144 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
40604.1 -3 116.7 18.91 0.4582 2.841
0.1878 114.0 18.90 2.787
16896.3 -2 109.5 19.29 1.552 8.427
5.2975E-02 106.6 19.29 9.314
15664.8 0 110.9 19.33 1.529 9.190
2.2462E-02 108.4 19.35 9.461
14780.1 0 112.1 19.35 1.503 9.494
1.0736E-02 109.7 19.36 9.488
14126.2 0 113.2 19.36 1.476 9.500
4.6576E-03 110.8 19.36 9.495
13660.0 0 114.1 19.37 1.451 9.500
3.8607E-05 111.7 19.36 9.499
13337.4 0 114.8 19.37 1.429 9.500
1.0442E-05 112.4 19.37 9.500
13114.1 0 115.4 19.37 1.410 9.500
3.1189E-06 112.9 19.37 9.500
12963.4 0 116.0 19.37 1.395 9.500
1.2293E-06 113.4 19.37 9.500
12860.8 0 116.4 19.37 1.381 9.500
2.6314E-07 113.7 19.37 9.500
12794.6 0 116.7 19.37 1.371 9.500
1.7599E-08 114.0 19.37 9.500
12685.5 0 117.3 19.37 1.346 9.500
3.0391E-10 114.3 19.37 9.500
12662.4 0 117.5 19.37 1.341 9.500
1.3046E-10 114.4 19.37 9.500
12647.7 0 117.6 19.37 1.337 9.500
4.3690E-11 114.4 19.37 9.500
12640.3 0 117.6 19.37 1.336 9.500
2.1812E-11 114.4 19.37 9.500
12635.1 0 117.7 19.37 1.334 9.500
4.8605E-14 114.5 19.37 9.500
Fit parameter 5 has pegged
12563.9 0 117.7 19.37 1.324 9.500
0.000 114.2 19.09 9.500
Fit parameter 5 has pegged
12557.1 0 117.6 19.37 1.320 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
12555.2 0 117.6 19.37 1.318 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
12554.9 0 117.6 19.37 1.318 9.500
0.000 114.1 19.11 9.500
Fit parameter 5 has pegged
12553.5 0 117.6 19.37 1.317 9.500
0.000 114.1 19.11 9.500
Fit parameter 5 has pegged
12547.9 0 117.7 19.37 1.316 9.500
0.000 114.1 19.11 9.500
Fit parameter 5 has pegged
12542.8 0 117.7 19.37 1.314 9.500
0.000 114.1 19.11 9.500
Fit parameter 5 has pegged
12538.2 0 117.8 19.37 1.313 9.500
0.000 114.1 19.11 9.500
Fit parameter 5 has pegged
12534.0 0 117.8 19.37 1.312 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
12530.2 0 117.9 19.37 1.311 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
12526.7 0 117.9 19.37 1.310 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
12523.5 0 117.9 19.37 1.309 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
12520.7 0 118.0 19.37 1.308 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
12517.9 0 118.0 19.37 1.307 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
12515.5 0 118.1 19.37 1.306 9.500
0.000 114.1 19.10 9.500
Fit parameter 5 has pegged
12513.3 0 118.1 19.37 1.305 9.500
0.000 114.2 19.09 9.500
Fit parameter 5 has pegged
12511.2 0 118.1 19.37 1.304 9.500
0.000 114.2 19.09 9.500
Fit parameter 5 has pegged
12509.3 0 118.1 19.37 1.304 9.500
0.000 114.2 19.09 9.500
Fit parameter 5 has pegged
12507.6 0 118.2 19.37 1.303 9.500
0.000 114.2 19.09 9.500
Fit parameter 5 has pegged
12506.0 0 118.2 19.37 1.302 9.500
0.000 114.2 19.08 9.500
Fit parameter 5 has pegged
12504.5 0 118.2 19.37 1.302 9.500
0.000 114.2 19.08 9.500
Fit parameter 5 has pegged
12503.2 0 118.2 19.37 1.301 9.500
0.000 114.2 19.08 9.500
Fit parameter 5 has pegged
12501.9 0 118.3 19.37 1.300 9.500
0.000 114.2 19.08 9.500
Fit parameter 5 has pegged
12500.7 0 118.3 19.37 1.300 9.500
0.000 114.2 19.08 9.500
Fit parameter 5 has pegged
12499.6 0 118.3 19.37 1.299 9.500
0.000 114.2 19.07 9.500
Fit parameter 5 has pegged
12498.6 0 118.3 19.37 1.299 9.500
0.000 114.2 19.07 9.500
Fit parameter 5 has pegged
12497.6 0 118.3 19.37 1.298 9.500
0.000 114.2 19.07 9.500
Fit parameter 5 has pegged
12496.7 0 118.4 19.37 1.298 9.500
0.000 114.2 19.06 9.500
Fit parameter 5 has pegged
12495.9 0 118.4 19.37 1.297 9.500
0.000 114.2 19.06 9.500
Fit parameter 5 has pegged
12495.1 0 118.4 19.37 1.297 9.500
0.000 114.3 19.06 9.500
Fit parameter 5 has pegged
12494.4 0 118.4 19.37 1.297 9.500
0.000 114.3 19.06 9.500
Fit parameter 5 has pegged
12493.7 0 118.4 19.37 1.296 9.500
0.000 114.3 19.05 9.500
Fit parameter 5 has pegged
12493.1 0 118.4 19.37 1.296 9.500
0.000 114.3 19.05 9.500
Fit parameter 5 has pegged
12492.4 0 118.4 19.37 1.295 9.500
0.000 114.3 19.05 9.500
Fit parameter 5 has pegged
12491.9 0 118.5 19.37 1.295 9.500
0.000 114.3 19.04 9.500
Fit parameter 5 has pegged
12491.3 0 118.5 19.37 1.295 9.500
0.000 114.3 19.04 9.500
Fit parameter 5 has pegged
12490.8 0 118.5 19.37 1.294 9.500
0.000 114.3 19.04 9.500
Fit parameter 5 has pegged
12490.3 0 118.5 19.37 1.294 9.500
0.000 114.3 19.03 9.500
Fit parameter 5 has pegged
12489.9 0 118.5 19.37 1.294 9.500
0.000 114.3 19.03 9.500
Fit parameter 5 has pegged
12489.4 0 118.5 19.37 1.293 9.500
0.000 114.3 19.03 9.500
Fit parameter 5 has pegged
12489.0 0 118.5 19.37 1.293 9.500
0.000 114.3 19.03 9.500
Fit parameter 5 has pegged
12488.7 0 118.5 19.37 1.293 9.500
0.000 114.3 19.02 9.500
Fit parameter 5 has pegged
12488.3 0 118.5 19.37 1.292 9.500
0.000 114.4 19.02 9.500
Fit parameter 5 has pegged
12488.0 0 118.5 19.37 1.292 9.500
0.000 114.4 19.02 9.500
Fit parameter 5 has pegged
12487.7 0 118.6 19.37 1.292 9.500
0.000 114.4 19.02 9.500
Fit parameter 5 has pegged
12487.3 0 118.6 19.37 1.292 9.500
0.000 114.4 19.01 9.500
Fit parameter 5 has pegged
12487.0 0 118.6 19.37 1.291 9.500
0.000 114.4 19.01 9.500
Fit parameter 5 has pegged
12486.7 0 118.6 19.37 1.291 9.500
0.000 114.4 19.01 9.500
Fit parameter 5 has pegged
12486.5 0 118.6 19.37 1.291 9.500
0.000 114.4 19.00 9.500
Fit parameter 5 has pegged
12486.2 0 118.6 19.37 1.291 9.500
0.000 114.4 19.00 9.500
Fit parameter 5 has pegged
12486.0 0 118.6 19.37 1.290 9.500
0.000 114.4 19.00 9.500
Fit parameter 5 has pegged
12485.8 0 118.6 19.37 1.290 9.500
0.000 114.4 19.00 9.500
Fit parameter 5 has pegged
12485.5 0 118.6 19.37 1.290 9.500
0.000 114.4 19.00 9.500
Fit parameter 5 has pegged
12485.3 0 118.6 19.37 1.290 9.500
0.000 114.4 18.99 9.500
Fit parameter 5 has pegged
12485.1 0 118.6 19.37 1.290 9.500
0.000 114.4 18.99 9.500
Fit parameter 5 has pegged
12484.9 0 118.6 19.37 1.289 9.500
0.000 114.4 18.99 9.500
Fit parameter 5 has pegged
12484.8 0 118.6 19.37 1.289 9.500
0.000 114.4 18.99 9.500
Fit parameter 5 has pegged
12484.6 0 118.6 19.37 1.289 9.500
0.000 114.4 18.99 9.500
Fit parameter 5 has pegged
12484.4 0 118.6 19.37 1.289 9.500
0.000 114.4 18.99 9.500
Fit parameter 5 has pegged
12484.2 0 118.6 19.37 1.289 9.500
0.000 114.5 18.98 9.500
Fit parameter 5 has pegged
12484.1 0 118.6 19.37 1.289 9.500
0.000 114.5 18.98 9.500
Fit parameter 5 has pegged
12484.0 0 118.6 19.37 1.288 9.500
0.000 114.5 18.98 9.500
Fit parameter 5 has pegged
12483.8 0 118.6 19.37 1.288 9.500
0.000 114.5 18.98 9.500
Fit parameter 5 has pegged
12483.7 0 118.6 19.37 1.288 9.500
0.000 114.5 18.98 9.500
Fit parameter 5 has pegged
12483.6 0 118.7 19.37 1.288 9.500
0.000 114.5 18.98 9.500
Fit parameter 5 has pegged
12483.5 0 118.7 19.37 1.288 9.500
0.000 114.5 18.97 9.500
Fit parameter 5 has pegged
12483.4 0 118.7 19.37 1.288 9.500
0.000 114.5 18.97 9.500
Fit parameter 5 has pegged
12483.2 0 118.7 19.37 1.288 9.500
0.000 114.5 18.97 9.500
Fit parameter 5 has pegged
12483.1 0 118.7 19.37 1.287 9.500
0.000 114.5 18.97 9.500
Fit parameter 5 has pegged
12483.1 0 118.7 19.37 1.287 9.500
0.000 114.5 18.97 9.500
Fit parameter 5 has pegged
12483.0 0 118.7 19.37 1.287 9.500
0.000 114.5 18.97 9.500
Fit parameter 5 has pegged
12482.8 0 118.7 19.37 1.287 9.500
0.000 114.5 18.97 9.500
Fit parameter 5 has pegged
12482.8 2 118.7 19.37 1.287 9.500
0.000 114.5 18.97 9.500
Fit parameter 5 has pegged
12482.8 4 118.7 19.37 1.287 9.500
0.000 114.5 18.97 9.500
12482.8 4 118.7 19.37 1.287 9.500
0.000 114.5 18.97 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.47E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.72E-02 | 0.33 0.01 0.01 -0.92 -0.20
2.18E-02 | -0.94 -0.06 0.01 -0.31 -0.11
2.94E+00 | -0.06 0.99 0.00 -0.03 0.10
3.33E-01 | -0.03 -0.10 0.00 -0.22 0.97
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.669 +/- 0.182660 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.70406 1
3 3 1 gaussian norm 1.28713 +/- 0.696445E-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 114.505 +/- 0.192066 2
7 7 3 gaussian Sigma keV 18.9653 +/- 0.583730 2
8 3 3 gaussian norm 1.28713 = par 3 2
9 8 4 powerlaw PhoIndex 9.50002 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 12482.81 using 198 PHA bins.
Reduced chi-squared = 65.69897 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 ( 63.364) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 63.364) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.071 photons ( 2.1372E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.001 photons ( 1.9530E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:12 01-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 3.257 +/- 7.7608E-03
Net count rate (cts/s) for file 2 3.257 +/- 7.7608E-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 = 344198.1 using 168 PHA bins.
Reduced chi-squared = 2151.238 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 27894.35 using 168 PHA bins.
Reduced chi-squared = 174.3397 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
26698.2 -3 84.89 14.55 0.1805 1.194
1.056 84.69 14.46 1.176
8083.13 -4 68.94 16.50 0.2581 0.9313
0.8521 68.30 16.31 0.9492
1211.15 -2 78.72 7.280 0.1784 0.9890
0.9051 77.67 8.053 0.9922
895.650 -3 76.31 9.768 0.2108 1.081
1.228 76.12 9.648 1.078
559.680 -4 75.75 9.356 0.2190 1.095
1.371 75.89 9.607 1.095
553.950 -5 75.75 9.386 0.2195 1.094
1.378 75.90 9.630 1.095
553.946 -6 75.75 9.378 0.2194 1.094
1.378 75.90 9.623 1.095
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.01E-06 | 0.00 0.00 -0.26 0.68 -0.23 0.00 0.00 0.64
1.14E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
9.57E-06 | 0.00 0.01 -0.96 -0.18 0.07 0.00 0.01 -0.18
3.11E-03 | 0.07 0.02 -0.01 -0.17 -0.97 0.07 0.02 -0.17
2.81E-02 | -0.15 -0.72 0.00 0.00 0.00 0.14 0.66 0.00
6.11E-02 | 0.32 -0.57 -0.01 0.00 0.03 0.40 -0.64 0.00
4.00E-02 | 0.92 0.00 0.00 0.01 0.05 -0.28 0.28 0.01
4.20E-02 | 0.17 0.38 0.01 0.02 0.08 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 75.7548 +/- 0.204281 1
2 2 1 gaussian Sigma keV 9.37782 +/- 0.202360 1
3 3 1 gaussian norm 0.219405 +/- 0.421732E-02 1
4 4 2 powerlaw PhoIndex 1.09403 +/- 0.104030E-01 1
5 5 2 powerlaw norm 1.37786 +/- 0.574832E-01 1
6 6 3 gaussian LineE keV 75.8998 +/- 0.211020 2
7 7 3 gaussian Sigma keV 9.62312 +/- 0.208848 2
8 3 3 gaussian norm 0.219405 = par 3 2
9 8 4 powerlaw PhoIndex 1.09524 +/- 0.997683E-02 2
10 5 4 powerlaw norm 1.37786 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 553.9463 using 168 PHA bins.
Reduced chi-squared = 3.462164 for 160 degrees of freedom
Null hypothesis probability = 7.006E-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 ( 3.317) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.317) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.261 photons ( 1.4907E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.256 photons ( 1.4848E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
118.2098
=====best line=====
75.7522 0.204023
=====best sigma=====
9.38279 0.202051
=====norm=====
0.219478 0.421103E-02
=====phoindx=====
1.09403 0.103973E-01
=====pow_norm=====
1.37778 0.574526E-01
=====best line=====
75.8993 0.210894
=====best sigma=====
9.62638 0.208668
=====norm=====
0.219478 par
=====phoindx=====
1.09524 0.997139E-02
=====pow_norm=====
1.37778 par
=====redu_chi=====
3.462163
=====area_flux=====
1.261
=====area_flux_f=====
1.256
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 10 1 640 2000 1212.0352 0 0.219478 0.421103E-02 9.38279 0.202051 1.09403 0.103973E-01 1.37778 0.574526E-01 1.261 640 2000 1214.3888 0 0.219478 0.421103E-02 9.62638 0.208668 1.09524 0.997139E-02 1.37778 0.574526E-01 1.256 3.462163 1
=====redu_chi=====
405.3144
=====best line=====
118.669 0.182660
=====best sigma=====
19.3655 1.70406
=====norm=====
1.28713 0.696445E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.505 0.192066
=====best sigma=====
18.9653 0.583730
=====norm=====
1.28713 par
=====phoindx=====
9.50002 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
65.69897
=====area_flux=====
1.071
=====area_flux_f=====
1.001
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 10 1 1600 3200 1898.704 0 1.28713 0.696445E-02 309.848 27.26496 9.50000 -1.00000 0.00000 -1.00000 1.071 1600 3200 1832.08 0 1.28713 0.696445E-02 303.4448 9.33968 9.50002 -1.00000 0.00000 -1.00000 1.001 65.69897 1
=====redu_chi=====
174.3397
=====best line=====
75.7548 0.204281
=====best sigma=====
9.37782 0.202360
=====norm=====
0.219405 0.421732E-02
=====phoindx=====
1.09403 0.104030E-01
=====pow_norm=====
1.37786 0.574832E-01
=====best line=====
75.8998 0.211020
=====best sigma=====
9.62312 0.208848
=====norm=====
0.219405 par
=====phoindx=====
1.09524 0.997683E-02
=====pow_norm=====
1.37786 par
=====redu_chi=====
3.462164
=====area_flux=====
1.261
=====area_flux_f=====
1.256
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 10 1 640 2000 1212.0768 0 0.219405 0.421732E-02 9.37782 0.202360 1.09403 0.104030E-01 1.37786 0.574832E-01 1.261 640 2000 1214.3968 0 0.219405 0.421732E-02 9.62312 0.208848 1.09524 0.997683E-02 1.37786 0.574832E-01 1.256 3.462164 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:12 01-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 3.643 +/- 8.2074E-03
Net count rate (cts/s) for file 2 3.643 +/- 8.2074E-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 = 242123.9 using 168 PHA bins.
Reduced chi-squared = 1513.274 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 19367.36 using 168 PHA bins.
Reduced chi-squared = 121.0460 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5899.39 -3 83.03 17.51 0.2904 1.013
0.7974 82.94 17.27 0.9995
3664.60 -3 66.76 19.25 0.4457 0.8786
0.4137 69.38 19.35 0.8824
3148.82 -2 71.93 3.863 7.4050E-02 0.8192
0.5206 74.48 2.240 0.8084
1653.10 -3 70.98 6.398 9.8989E-02 0.8407
0.5469 74.26 4.227 0.8366
699.222 -4 68.82 8.693 0.1588 0.8392
0.5241 73.77 7.823 0.8365
504.731 -5 69.06 8.341 0.1998 0.8204
0.4683 72.76 9.707 0.8195
498.833 -6 68.92 8.554 0.2027 0.8148
0.4569 72.64 9.425 0.8131
498.719 -7 68.94 8.510 0.2024 0.8153
0.4577 72.64 9.450 0.8134
498.716 -8 68.93 8.520 0.2025 0.8152
0.4575 72.64 9.451 0.8133
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.26E-07 | 0.00 0.00 -0.19 0.57 -0.58 0.00 0.00 0.55
1.00E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
9.73E-06 | 0.00 0.01 -0.98 -0.11 0.11 0.00 0.01 -0.12
4.56E-04 | 0.03 -0.01 0.01 -0.43 -0.81 0.02 -0.01 -0.41
3.02E-02 | -0.21 -0.82 0.00 0.00 0.00 0.04 0.53 0.00
4.07E-02 | 0.94 -0.03 0.00 0.01 0.02 -0.10 0.33 0.01
7.42E-02 | 0.27 -0.47 -0.01 0.01 0.03 0.51 -0.66 0.01
4.95E-02 | 0.05 -0.32 -0.01 -0.01 -0.01 -0.85 -0.41 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 68.9348 +/- 0.206646 1
2 2 1 gaussian Sigma keV 8.52019 +/- 0.204894 1
3 3 1 gaussian norm 0.202537 +/- 0.439376E-02 1
4 4 2 powerlaw PhoIndex 0.815198 +/- 0.993539E-02 1
5 5 2 powerlaw norm 0.457479 +/- 0.189718E-01 1
6 6 3 gaussian LineE keV 72.6389 +/- 0.236329 2
7 7 3 gaussian Sigma keV 9.45058 +/- 0.232434 2
8 3 3 gaussian norm 0.202537 = par 3 2
9 8 4 powerlaw PhoIndex 0.813275 +/- 0.952399E-02 2
10 5 4 powerlaw norm 0.457479 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 498.7160 using 168 PHA bins.
Reduced chi-squared = 3.116975 for 160 degrees of freedom
Null hypothesis probability = 1.849E-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 ( 2.986) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.986) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.336 photons ( 1.5950E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.346 photons ( 1.6186E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:12 01-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 8.947 +/- 1.2863E-02
Net count rate (cts/s) for file 2 8.947 +/- 1.2863E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.304 +/- 1.5258E-02( 59.3% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.304 +/- 1.5258E-02( 59.3% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 9792643. using 198 PHA bins.
Reduced chi-squared = 51540.23 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 71203.26 using 198 PHA bins.
Reduced chi-squared = 374.7540 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
47931.9 -3 85.83 18.48 0.5196 2.608
9.8734E-02 106.2 18.64 2.558
47801.3 2 85.91 18.57 0.5208 2.475
0.1220 106.2 18.64 2.558
46565.5 1 86.78 19.14 0.5331 1.974
0.3320 106.4 18.61 2.574
37440.6 0 94.15 19.31 0.6396 1.909
0.4480 107.4 18.17 3.119
19086.4 0 116.4 19.35 1.074 1.975
0.3297 110.4 9.638 9.322
16678.4 0 116.0 18.98 1.070 2.210
0.1388 110.4 10.02 9.473
12686.9 0 114.9 12.52 1.118 5.270
1.0853E-02 110.6 13.40 9.487
7519.31 -1 112.5 16.56 1.397 8.394
4.5702E-03 110.4 16.62 9.499
7217.72 -1 111.6 18.01 1.420 9.450
1.3709E-03 110.7 16.66 9.500
6995.87 0 111.7 18.18 1.410 9.492
6.2613E-04 110.5 16.48 9.500
6949.52 0 111.7 18.24 1.404 9.496
2.0204E-04 110.6 16.40 9.500
6933.10 0 111.7 18.26 1.401 9.500
9.1720E-05 110.6 16.36 9.500
6924.45 0 111.7 18.27 1.398 9.500
3.5897E-05 110.7 16.33 9.500
6918.30 0 111.7 18.26 1.396 9.500
7.8933E-06 110.7 16.30 9.500
6913.58 0 111.8 18.26 1.394 9.500
8.8724E-07 110.8 16.28 9.500
6909.15 0 111.8 18.25 1.393 9.500
1.2536E-08 110.9 16.26 9.500
6811.06 0 111.8 18.17 1.386 9.500
9.3216E-11 110.9 16.11 9.500
6801.68 0 111.8 18.13 1.384 9.500
1.9239E-11 110.9 16.09 9.500
6796.79 0 111.9 18.11 1.382 9.500
8.1116E-13 111.0 16.07 9.500
6793.44 0 111.9 18.10 1.380 9.500
2.3655E-13 111.0 16.06 9.500
Fit parameter 5 has pegged
6706.03 -1 112.3 17.57 1.352 9.500
0.000 111.2 15.48 9.500
Fit parameter 5 has pegged
6687.65 -2 112.4 17.75 1.349 9.500
0.000 111.3 15.66 9.500
Fit parameter 5 has pegged
6684.61 -3 112.6 17.57 1.337 9.500
0.000 111.6 15.47 9.500
Fit parameter 5 has pegged
6683.22 -4 112.5 17.67 1.341 9.500
0.000 111.5 15.57 9.500
Fit parameter 5 has pegged
6682.71 -5 112.6 17.61 1.338 9.500
0.000 111.5 15.51 9.500
Fit parameter 5 has pegged
6682.65 -6 112.6 17.64 1.340 9.500
0.000 111.5 15.54 9.500
Fit parameter 5 has pegged
6682.58 -7 112.6 17.62 1.338 9.500
0.000 111.5 15.52 9.500
Fit parameter 5 has pegged
6682.55 -8 112.6 17.64 1.340 9.500
0.000 111.5 15.54 9.500
Fit parameter 5 has pegged
6682.49 -9 112.6 17.63 1.339 9.500
0.000 111.5 15.52 9.500
Maximum number of increasing lambda iterations exceeded
without decreasing the fit statistic, probable minimum
found to available numerical accuracy
6682.45 6 112.6 17.63 1.339 9.500
0.000 111.5 15.52 9.500
Fit parameter 5 has pegged
6682.45 6 112.6 17.63 1.339 9.500
0.000 111.5 15.52 9.500
6682.45 6 112.6 17.63 1.339 9.500
0.000 111.5 15.52 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.72E-05 | -0.01 0.01 -1.00 -0.01 0.04
3.90E-04 | 0.01 -0.01 0.04 0.13 0.99
4.80E-03 | -0.46 -0.89 0.00 -0.01 0.00
5.07E-02 | 0.78 -0.40 -0.02 0.47 -0.07
2.00E-02 | 0.43 -0.21 0.01 -0.87 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 112.580 +/- 0.188453 1
2 2 1 gaussian Sigma keV 17.6257 +/- 0.113802 1
3 3 1 gaussian norm 1.33882 +/- 0.781793E-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 111.536 +/- 0.162941 2
7 7 3 gaussian Sigma keV 15.5237 +/- 0.294369E-01 2
8 3 3 gaussian norm 1.33882 = 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 = 6682.448 using 198 PHA bins.
Reduced chi-squared = 35.17078 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 ( 33.921) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 33.921) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.020 photons ( 1.9577E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.032 photons ( 1.9459E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:12 01-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 3.643 +/- 8.2074E-03
Net count rate (cts/s) for file 2 3.643 +/- 8.2074E-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 = 313076.5 using 168 PHA bins.
Reduced chi-squared = 1956.728 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 30873.97 using 168 PHA bins.
Reduced chi-squared = 192.9623 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4467.46 -3 86.89 14.76 0.1349 0.9249
0.7091 86.15 14.41 0.9084
4085.25 -4 60.30 19.25 0.3722 0.9941
0.8301 62.68 18.95 0.9881
2344.99 0 66.65 19.33 0.3601 0.9906
0.8329 68.83 19.21 0.9865
2249.30 0 67.12 19.09 0.3607 0.9903
0.8330 69.37 19.11 0.9864
2170.16 0 67.52 18.86 0.3610 0.9900
0.8329 69.84 18.99 0.9864
2103.85 0 67.88 18.64 0.3612 0.9898
0.8328 70.26 18.86 0.9864
1727.40 0 69.72 11.94 0.3553 0.9887
0.8312 72.43 14.56 0.9860
905.624 -1 70.22 10.26 0.2396 0.9711
0.8594 74.11 11.09 0.9697
762.293 -2 70.05 9.685 0.1889 0.9324
0.7610 73.78 9.854 0.9316
603.804 -2 69.62 8.035 0.1942 0.9072
0.6809 73.29 9.100 0.9064
558.684 -2 69.27 8.516 0.2000 0.8868
0.6222 73.09 9.377 0.8858
534.533 -2 69.25 8.394 0.1989 0.8709
0.5824 73.02 9.311 0.8696
522.447 -3 69.00 8.537 0.2021 0.8286
0.4799 72.74 9.450 0.8285
498.814 -4 68.94 8.521 0.2025 0.8151
0.4577 72.64 9.452 0.8136
498.716 -5 68.94 8.518 0.2025 0.8152
0.4575 72.64 9.450 0.8133
498.716 -6 68.94 8.518 0.2025 0.8152
0.4575 72.64 9.450 0.8133
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.26E-07 | 0.00 0.00 -0.19 0.57 -0.58 0.00 0.00 0.55
1.00E-06 | 0.00 0.00 -0.01 -0.70 0.00 0.00 0.00 0.72
9.74E-06 | 0.00 0.01 -0.98 -0.11 0.11 0.00 0.01 -0.12
4.56E-04 | 0.03 -0.01 0.01 -0.43 -0.81 0.02 -0.01 -0.41
3.02E-02 | -0.21 -0.82 0.00 0.00 0.00 0.04 0.53 0.00
4.08E-02 | 0.94 -0.03 0.00 0.01 0.02 -0.10 0.33 0.01
7.43E-02 | 0.27 -0.47 -0.01 0.01 0.03 0.51 -0.66 0.01
4.95E-02 | 0.04 -0.32 -0.01 -0.01 -0.01 -0.85 -0.41 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 68.9358 +/- 0.206864 1
2 2 1 gaussian Sigma keV 8.51821 +/- 0.205113 1
3 3 1 gaussian norm 0.202513 +/- 0.439645E-02 1
4 4 2 powerlaw PhoIndex 0.815223 +/- 0.993749E-02 1
5 5 2 powerlaw norm 0.457529 +/- 0.189692E-01 1
6 6 3 gaussian LineE keV 72.6391 +/- 0.236225 2
7 7 3 gaussian Sigma keV 9.45002 +/- 0.232392 2
8 3 3 gaussian norm 0.202513 = par 3 2
9 8 4 powerlaw PhoIndex 0.813296 +/- 0.952603E-02 2
10 5 4 powerlaw norm 0.457529 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 498.7160 using 168 PHA bins.
Reduced chi-squared = 3.116975 for 160 degrees of freedom
Null hypothesis probability = 1.849E-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 ( 2.986) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.986) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.336 photons ( 1.5950E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.346 photons ( 1.6186E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
121.0460
=====best line=====
68.9348 0.206646
=====best sigma=====
8.52019 0.204894
=====norm=====
0.202537 0.439376E-02
=====phoindx=====
0.815198 0.993539E-02
=====pow_norm=====
0.457479 0.189718E-01
=====best line=====
72.6389 0.236329
=====best sigma=====
9.45058 0.232434
=====norm=====
0.202537 par
=====phoindx=====
0.813275 0.952399E-02
=====pow_norm=====
0.457479 par
=====redu_chi=====
3.116975
=====area_flux=====
1.336
=====area_flux_f=====
1.346
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 11 1 640 2000 1102.9568 0 0.202537 0.439376E-02 8.52019 0.204894 0.815198 0.993539E-02 0.457479 0.189718E-01 1.336 640 2000 1162.2224 0 0.202537 0.439376E-02 9.45058 0.232434 0.813275 0.952399E-02 0.457479 0.189718E-01 1.346 3.116975 1
=====redu_chi=====
374.7540
=====best line=====
112.580 0.188453
=====best sigma=====
17.6257 0.113802
=====norm=====
1.33882 0.781793E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.536 0.162941
=====best sigma=====
15.5237 0.294369E-01
=====norm=====
1.33882 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
35.17078
=====area_flux=====
1.020
=====area_flux_f=====
1.032
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 11 1 1600 3200 1801.28 0 1.33882 0.781793E-02 282.0112 1.820832 9.50000 -1.00000 0.00000 -1.00000 1.020 1600 3200 1784.576 0 1.33882 0.781793E-02 248.3792 0.4709904 9.50000 -1.00000 0.00000 -1.00000 1.032 35.17078 1
=====redu_chi=====
192.9623
=====best line=====
68.9358 0.206864
=====best sigma=====
8.51821 0.205113
=====norm=====
0.202513 0.439645E-02
=====phoindx=====
0.815223 0.993749E-02
=====pow_norm=====
0.457529 0.189692E-01
=====best line=====
72.6391 0.236225
=====best sigma=====
9.45002 0.232392
=====norm=====
0.202513 par
=====phoindx=====
0.813296 0.952603E-02
=====pow_norm=====
0.457529 par
=====redu_chi=====
3.116975
=====area_flux=====
1.336
=====area_flux_f=====
1.346
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 11 1 640 2000 1102.9728 0 0.202513 0.439645E-02 8.51821 0.205113 0.815223 0.993749E-02 0.457529 0.189692E-01 1.336 640 2000 1162.2256 0 0.202513 0.439645E-02 9.45002 0.232392 0.813296 0.952603E-02 0.457529 0.189692E-01 1.346 3.116975 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:12 01-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 3.224 +/- 7.7209E-03
Net count rate (cts/s) for file 2 3.224 +/- 7.7209E-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 = 254133.1 using 168 PHA bins.
Reduced chi-squared = 1588.332 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11922.47 using 168 PHA bins.
Reduced chi-squared = 74.51546 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1830.07 -3 83.46 15.50 0.2061 0.9063
0.5970 84.01 14.80 0.9017
1285.90 -3 76.55 7.927 0.1028 0.8322
0.4835 78.84 8.402 0.8339
1218.14 -2 78.38 12.02 0.1805 0.8595
0.5114 80.89 14.97 0.8593
917.856 -3 79.27 9.255 0.1285 0.9050
0.6316 80.69 7.814 0.9032
746.246 -4 78.18 9.685 0.1878 0.9496
0.7342 80.79 13.03 0.9479
549.244 -5 78.67 8.823 0.1729 0.9417
0.7332 80.78 9.543 0.9415
531.363 -6 78.43 9.661 0.1906 0.9519
0.7526 80.68 9.961 0.9518
529.944 -7 78.59 9.326 0.1872 0.9503
0.7511 80.70 9.831 0.9506
529.601 -8 78.52 9.465 0.1889 0.9511
0.7520 80.69 9.840 0.9512
529.566 -9 78.54 9.413 0.1884 0.9508
0.7518 80.69 9.820 0.9510
529.561 -10 78.53 9.434 0.1886 0.9509
0.7519 80.69 9.831 0.9511
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.67E-07 | 0.00 0.00 -0.25 0.64 -0.40 0.00 0.00 0.61
1.11E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.91E-06 | 0.00 0.01 -0.97 -0.15 0.12 0.00 0.01 -0.16
1.09E-03 | 0.03 0.02 -0.02 -0.30 -0.91 0.03 0.02 -0.29
3.68E-02 | -0.12 -0.75 0.00 0.00 0.00 0.10 0.64 0.00
7.79E-02 | -0.20 0.61 0.01 0.00 0.01 -0.29 0.71 0.00
5.20E-02 | 0.92 -0.06 0.00 0.01 0.02 -0.34 0.16 0.01
5.77E-02 | -0.30 -0.26 0.00 -0.01 -0.04 -0.89 -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 78.5338 +/- 0.230764 1
2 2 1 gaussian Sigma keV 9.43385 +/- 0.231217 1
3 3 1 gaussian norm 0.188603 +/- 0.420549E-02 1
4 4 2 powerlaw PhoIndex 0.950948 +/- 0.107235E-01 1
5 5 2 powerlaw norm 0.751907 +/- 0.320618E-01 1
6 6 3 gaussian LineE keV 80.6926 +/- 0.241842 2
7 7 3 gaussian Sigma keV 9.83096 +/- 0.243107 2
8 3 3 gaussian norm 0.188603 = par 3 2
9 8 4 powerlaw PhoIndex 0.951140 +/- 0.102987E-01 2
10 5 4 powerlaw norm 0.751907 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 529.5606 using 168 PHA bins.
Reduced chi-squared = 3.309754 for 160 degrees of freedom
Null hypothesis probability = 4.136E-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 ( 3.171) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.171) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.233 photons ( 1.4831E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.232 photons ( 1.4886E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:12 01-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 7.677 +/- 1.1915E-02
Net count rate (cts/s) for file 2 7.677 +/- 1.1915E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.453 +/- 1.4198E-02( 58.0% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.453 +/- 1.4198E-02( 58.0% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 3265307. using 198 PHA bins.
Reduced chi-squared = 17185.83 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 82773.23 using 198 PHA bins.
Reduced chi-squared = 435.6486 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
43770.7 -3 120.3 19.15 0.5131 2.946
0.3934 116.6 19.10 2.914
27696.0 -2 109.4 19.33 1.822 8.350
0.1746 110.4 19.27 9.062
24207.0 0 110.8 19.36 1.708 9.358
6.0301E-02 111.8 19.36 9.388
21862.1 0 112.3 19.36 1.634 3.235
2.3054E-02 113.3 19.36 9.464
21861.9 4 112.3 19.36 1.634 3.001
3.2700E-02 113.3 19.36 9.489
21859.4 3 112.3 19.36 1.634 2.699
6.8374E-02 113.3 19.36 9.496
21849.6 2 112.3 19.37 1.634 2.455
0.1485 113.3 19.37 9.498
21782.4 1 112.4 19.37 1.632 2.122
0.3841 113.3 19.37 9.499
21260.0 0 112.7 19.37 1.614 1.934
0.7348 113.6 19.37 9.500
19612.3 0 114.1 19.37 1.568 1.861
1.041 115.1 19.37 9.500
18423.6 0 115.4 19.37 1.534 1.861
1.072 116.3 19.37 9.500
17572.7 0 116.5 19.37 1.510 1.870
1.057 117.3 19.37 9.500
16976.2 0 117.4 19.37 1.491 1.886
1.009 118.1 19.37 9.500
16544.2 0 118.1 19.37 1.476 1.901
0.9808 118.8 19.37 9.500
16238.8 0 118.7 19.37 1.464 1.923
0.9223 119.3 19.37 9.500
16016.0 0 119.2 19.37 1.455 1.949
0.8606 119.7 19.37 9.500
15855.7 0 119.6 19.37 1.447 1.971
0.8406 120.0 19.37 9.500
15738.0 0 120.0 19.37 1.441 2.000
0.8038 120.2 19.37 9.500
15654.0 0 120.2 19.37 1.437 2.018
0.8299 120.4 19.37 9.500
15588.9 0 120.5 19.37 1.433 2.056
0.7868 120.5 19.37 9.500
15544.9 0 120.6 19.37 1.430 2.097
0.7697 120.6 19.37 9.500
15510.5 0 120.8 19.37 1.428 2.129
0.8269 120.7 19.37 9.500
15482.4 0 120.9 19.37 1.427 2.138
1.009 120.8 19.37 9.500
15459.5 0 120.9 19.37 1.425 2.174
1.062 120.8 19.37 9.500
15440.0 0 121.0 19.37 1.423 2.219
1.106 120.9 19.37 9.500
15428.6 0 121.1 19.37 1.423 2.239
1.378 120.9 19.37 9.500
15385.1 0 121.2 19.37 1.417 2.319
1.860 120.7 19.37 9.500
15377.3 0 121.2 19.37 1.415 2.350
2.263 120.6 19.37 9.500
15366.5 0 121.2 19.37 1.414 2.339
3.191 120.6 19.37 9.500
15364.8 0 121.3 19.37 1.414 2.364
3.575 120.6 19.37 9.500
15310.6 0 121.3 19.37 1.408 2.332
4.183 120.6 19.37 9.500
15263.0 0 121.4 19.37 1.402 2.313
4.617 120.7 19.37 9.500
15220.8 0 121.5 19.37 1.397 2.300
4.952 120.7 19.37 9.500
15183.3 0 121.6 19.37 1.392 2.290
5.229 120.8 19.37 9.500
15149.8 0 121.6 19.37 1.388 2.283
5.449 120.8 19.37 9.500
15119.8 0 121.7 19.37 1.383 2.278
5.643 120.9 19.37 9.500
15092.7 0 121.8 19.37 1.380 2.273
5.803 120.9 19.37 9.500
15068.3 0 121.8 19.37 1.376 2.270
5.938 121.0 19.37 9.500
15046.2 0 121.9 19.37 1.373 2.267
6.065 121.0 19.37 9.500
15026.3 0 121.9 19.37 1.369 2.265
6.174 121.1 19.37 9.500
15008.2 0 122.0 19.37 1.366 2.263
6.276 121.1 19.37 9.500
14991.8 0 122.1 19.37 1.364 2.261
6.350 121.2 19.37 9.500
14976.9 0 122.1 19.37 1.361 2.260
6.427 121.2 19.37 9.500
14963.4 0 122.2 19.37 1.359 2.259
6.491 121.2 19.37 9.500
14951.0 0 122.2 19.37 1.357 2.259
6.544 121.3 19.37 9.500
14939.6 0 122.3 19.37 1.354 2.259
6.596 121.3 19.37 9.500
14929.2 0 122.3 19.37 1.352 2.259
6.640 121.3 19.37 9.500
14919.7 0 122.4 19.37 1.351 2.258
6.687 121.4 19.37 9.500
14910.9 0 122.4 19.37 1.349 2.258
6.736 121.4 19.37 9.500
14902.9 0 122.5 19.37 1.347 2.259
6.767 121.4 19.37 9.500
14895.5 0 122.5 19.37 1.346 2.259
6.801 121.5 19.37 9.500
14888.7 0 122.6 19.37 1.344 2.259
6.825 121.5 19.37 9.500
14882.5 0 122.6 19.37 1.343 2.260
6.855 121.5 19.37 9.500
14876.8 0 122.6 19.37 1.342 2.260
6.883 121.5 19.37 9.500
14871.4 0 122.7 19.37 1.341 2.261
6.915 121.6 19.37 9.500
14866.5 0 122.7 19.37 1.340 2.261
6.937 121.6 19.37 9.500
14861.9 0 122.8 19.37 1.338 2.262
6.958 121.6 19.37 9.500
14857.7 0 122.8 19.37 1.338 2.263
6.981 121.6 19.37 9.500
14853.8 0 122.8 19.37 1.337 2.264
7.001 121.7 19.37 9.500
14850.2 0 122.9 19.37 1.336 2.264
7.026 121.7 19.37 9.500
14846.9 0 122.9 19.37 1.335 2.265
7.046 121.7 19.37 9.500
14843.8 0 122.9 19.37 1.334 2.266
7.062 121.7 19.37 9.500
14840.9 0 123.0 19.37 1.333 2.267
7.081 121.7 19.37 9.500
14838.2 0 123.0 19.37 1.333 2.268
7.104 121.7 19.37 9.500
14835.7 0 123.0 19.37 1.332 2.268
7.132 121.7 19.37 9.500
14833.5 0 123.0 19.37 1.331 2.269
7.151 121.8 19.37 9.500
14831.3 0 123.1 19.37 1.331 2.270
7.177 121.8 19.37 9.500
14829.3 0 123.1 19.37 1.330 2.271
7.194 121.8 19.37 9.500
14827.4 0 123.1 19.37 1.330 2.272
7.211 121.8 19.37 9.500
14825.7 0 123.1 19.37 1.329 2.273
7.235 121.8 19.37 9.500
14824.0 0 123.2 19.37 1.329 2.273
7.258 121.8 19.37 9.500
14822.5 0 123.2 19.37 1.328 2.274
7.281 121.8 19.37 9.500
14821.1 0 123.2 19.37 1.328 2.275
7.307 121.8 19.37 9.500
14819.8 0 123.2 19.37 1.328 2.276
7.325 121.9 19.37 9.500
14818.5 0 123.2 19.37 1.327 2.277
7.340 121.9 19.37 9.500
14817.4 0 123.2 19.37 1.327 2.278
7.366 121.9 19.37 9.500
14816.3 0 123.3 19.37 1.326 2.279
7.381 121.9 19.37 9.500
14815.2 0 123.3 19.37 1.326 2.280
7.402 121.9 19.37 9.500
14814.3 0 123.3 19.37 1.326 2.281
7.423 121.9 19.37 9.500
14813.4 0 123.3 19.37 1.326 2.282
7.440 121.9 19.37 9.500
14812.5 0 123.3 19.37 1.325 2.283
7.467 121.9 19.37 9.500
14811.7 0 123.3 19.37 1.325 2.283
7.499 121.9 19.37 9.500
14811.0 0 123.4 19.37 1.325 2.284
7.522 121.9 19.37 9.500
14810.3 0 123.4 19.37 1.325 2.285
7.553 121.9 19.37 9.500
14809.7 0 123.4 19.37 1.324 2.286
7.572 121.9 19.37 9.500
14809.0 0 123.4 19.37 1.324 2.287
7.593 121.9 19.37 9.500
14808.4 0 123.4 19.37 1.324 2.288
7.619 121.9 19.37 9.500
14807.8 0 123.4 19.37 1.324 2.289
7.646 121.9 19.37 9.500
14807.3 0 123.4 19.37 1.323 2.290
7.670 121.9 19.37 9.500
14806.8 0 123.4 19.37 1.323 2.291
7.694 121.9 19.37 9.500
14806.4 0 123.4 19.37 1.323 2.292
7.722 122.0 19.37 9.500
14805.9 0 123.5 19.37 1.323 2.293
7.754 122.0 19.37 9.500
14805.5 0 123.5 19.37 1.323 2.294
7.781 122.0 19.37 9.500
14805.1 0 123.5 19.37 1.323 2.294
7.809 122.0 19.37 9.500
14804.7 0 123.5 19.37 1.323 2.295
7.833 122.0 19.37 9.500
14804.4 0 123.5 19.37 1.322 2.296
7.858 122.0 19.37 9.500
14804.1 0 123.5 19.37 1.322 2.297
7.890 122.0 19.37 9.500
14803.7 0 123.5 19.37 1.322 2.298
7.919 122.0 19.37 9.500
14803.4 0 123.5 19.37 1.322 2.299
7.957 122.0 19.37 9.500
14803.1 0 123.5 19.37 1.322 2.300
7.984 122.0 19.37 9.500
14802.8 0 123.5 19.37 1.322 2.301
8.009 122.0 19.37 9.500
14802.6 0 123.5 19.37 1.322 2.302
8.039 122.0 19.37 9.500
14802.4 0 123.5 19.37 1.322 2.302
8.072 122.0 19.37 9.500
14802.1 0 123.5 19.37 1.322 2.303
8.106 122.0 19.37 9.500
14801.9 0 123.5 19.37 1.321 2.304
8.142 122.0 19.37 9.500
14801.6 0 123.6 19.37 1.321 2.305
8.168 122.0 19.37 9.500
14801.5 0 123.6 19.37 1.321 2.306
8.198 122.0 19.37 9.500
14801.2 0 123.6 19.37 1.321 2.307
8.230 122.0 19.37 9.500
14801.1 0 123.6 19.37 1.321 2.308
8.264 122.0 19.37 9.500
14800.9 0 123.6 19.37 1.321 2.309
8.285 122.0 19.37 9.500
14800.7 0 123.6 19.37 1.321 2.310
8.318 122.0 19.37 9.500
14800.5 0 123.6 19.37 1.321 2.310
8.365 122.0 19.37 9.500
14800.3 0 123.6 19.37 1.321 2.311
8.401 122.0 19.37 9.500
14800.2 0 123.6 19.37 1.321 2.312
8.439 122.0 19.37 9.500
14800.0 0 123.6 19.37 1.321 2.313
8.470 122.0 19.37 9.500
14799.9 0 123.6 19.37 1.321 2.314
8.502 122.0 19.37 9.500
14799.8 0 123.6 19.37 1.321 2.315
8.542 122.0 19.37 9.500
14799.7 0 123.6 19.37 1.321 2.315
8.580 122.0 19.37 9.500
14799.5 0 123.6 19.37 1.321 2.316
8.605 122.0 19.37 9.500
14799.5 0 123.6 19.37 1.321 2.317
8.651 122.0 19.37 9.500
14799.3 0 123.6 19.37 1.320 2.318
8.681 122.0 19.37 9.500
14799.2 0 123.6 19.37 1.320 2.319
8.707 122.0 19.37 9.500
14799.1 0 123.6 19.37 1.320 2.320
8.751 122.0 19.37 9.500
14799.0 0 123.6 19.37 1.320 2.321
8.783 122.0 19.37 9.500
14798.9 0 123.6 19.37 1.320 2.322
8.826 122.0 19.37 9.500
14798.8 0 123.6 19.37 1.320 2.322
8.869 122.0 19.37 9.500
14798.7 0 123.6 19.37 1.320 2.323
8.916 122.0 19.37 9.500
14798.6 0 123.6 19.37 1.320 2.324
8.946 122.0 19.37 9.500
14798.5 0 123.6 19.37 1.320 2.325
8.987 122.0 19.37 9.500
14798.5 0 123.6 19.37 1.320 2.326
9.021 122.0 19.37 9.500
14798.3 0 123.6 19.37 1.320 2.326
9.062 122.0 19.37 9.500
14798.3 0 123.6 19.37 1.320 2.327
9.103 122.0 19.37 9.500
14798.2 0 123.6 19.37 1.320 2.328
9.136 122.0 19.37 9.500
14798.2 0 123.6 19.37 1.320 2.329
9.176 122.0 19.37 9.500
14798.0 0 123.6 19.37 1.320 2.330
9.214 122.0 19.37 9.500
14798.0 0 123.6 19.37 1.320 2.331
9.250 122.0 19.37 9.500
14797.9 0 123.6 19.37 1.320 2.332
9.287 122.0 19.37 9.500
14797.8 0 123.6 19.37 1.320 2.333
9.324 122.0 19.37 9.500
14797.8 0 123.6 19.37 1.320 2.333
9.367 122.0 19.37 9.500
14797.7 0 123.6 19.37 1.320 2.334
9.413 122.0 19.37 9.500
14797.6 0 123.7 19.37 1.320 2.335
9.448 122.0 19.37 9.500
14797.6 0 123.7 19.37 1.320 2.336
9.487 122.0 19.37 9.500
14797.5 0 123.7 19.37 1.320 2.337
9.536 122.0 19.37 9.500
14797.5 0 123.7 19.37 1.320 2.338
9.576 122.0 19.37 9.500
14797.3 0 123.7 19.37 1.320 2.339
9.675 122.0 19.37 9.500
14797.2 0 123.7 19.37 1.320 2.340
9.716 122.0 19.37 9.500
14797.1 1 123.7 19.37 1.320 2.340
9.739 122.0 19.37 9.500
14797.1 0 123.7 19.37 1.320 2.340
9.778 122.0 19.37 9.500
14797.0 0 123.7 19.37 1.320 2.341
9.817 122.0 19.37 9.500
14797.0 0 123.7 19.37 1.320 2.342
9.865 122.0 19.37 9.500
14796.9 0 123.7 19.37 1.320 2.343
9.908 122.0 19.37 9.500
14796.9 0 123.7 19.37 1.320 2.344
9.953 122.0 19.37 9.500
14796.8 0 123.7 19.37 1.320 2.345
10.04 122.0 19.37 9.500
14796.7 0 123.7 19.37 1.320 2.346
10.09 122.0 19.37 9.500
14796.7 0 123.7 19.37 1.320 2.347
10.13 122.0 19.37 9.500
14796.6 0 123.7 19.37 1.320 2.348
10.17 122.0 19.37 9.500
14796.5 1 123.7 19.37 1.320 2.348
10.20 122.0 19.37 9.500
14796.5 0 123.7 19.37 1.320 2.348
10.24 122.0 19.37 9.500
14796.5 0 123.7 19.37 1.320 2.349
10.28 122.0 19.37 9.500
14796.5 0 123.7 19.37 1.320 2.350
10.32 122.0 19.37 9.500
14796.4 0 123.7 19.37 1.320 2.352
10.42 122.0 19.37 9.500
14796.3 0 123.7 19.37 1.320 2.353
10.46 122.0 19.37 9.500
14796.3 0 123.7 19.37 1.320 2.354
10.51 122.0 19.37 9.500
14796.2 0 123.7 19.37 1.320 2.355
10.60 122.0 19.37 9.500
14796.2 0 123.7 19.37 1.320 2.356
10.65 122.0 19.37 9.500
14796.2 0 123.7 19.37 1.320 2.357
10.70 122.0 19.37 9.500
14796.1 0 123.7 19.37 1.319 2.358
10.74 122.0 19.37 9.500
14795.9 1 123.7 19.37 1.319 2.358
10.76 122.0 19.37 9.500
14795.9 0 123.7 19.37 1.319 2.358
10.80 122.0 19.37 9.500
14795.9 0 123.7 19.37 1.319 2.360
10.91 122.0 19.37 9.500
14795.9 0 123.7 19.37 1.319 2.361
10.96 122.0 19.37 9.500
14795.8 0 123.7 19.37 1.319 2.362
11.05 122.0 19.37 9.500
14795.8 0 123.7 19.37 1.319 2.363
11.10 122.0 19.37 9.500
14795.6 1 123.7 19.37 1.319 2.364
11.18 122.0 19.37 9.500
14795.6 0 123.7 19.37 1.319 2.365
11.23 122.0 19.37 9.500
14795.6 0 123.7 19.37 1.319 2.366
11.27 122.0 19.37 9.500
14795.5 0 123.7 19.37 1.319 2.367
11.37 122.1 19.37 9.500
14795.3 1 123.7 19.37 1.319 2.367
11.40 122.1 19.37 9.500
14795.2 1 123.7 19.37 1.319 2.367
11.42 122.1 19.37 9.500
14795.0 1 123.7 19.37 1.319 2.366
11.45 122.1 19.37 9.500
14795.0 0 123.7 19.37 1.319 2.367
11.49 122.1 19.37 9.500
14794.8 1 123.7 19.37 1.319 2.367
11.54 122.1 19.37 9.500
14794.8 0 123.7 19.37 1.319 2.368
11.58 122.1 19.37 9.500
14794.5 1 123.7 19.37 1.319 2.367
11.63 122.1 19.37 9.500
14794.4 1 123.7 19.37 1.319 2.367
11.65 122.1 19.37 9.500
14794.2 1 123.7 19.37 1.319 2.367
11.68 122.1 19.37 9.500
14794.1 1 123.7 19.37 1.318 2.367
11.70 122.1 19.37 9.500
14794.0 1 123.7 19.37 1.318 2.366
11.72 122.1 19.37 9.500
14793.9 1 123.7 19.37 1.318 2.366
11.74 122.1 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
2.38E-05 | -0.01 0.00 -1.00 0.02 0.00 -0.01 0.00
1.27E-03 | 0.04 0.01 -0.02 -1.00 0.02 -0.01 0.00
2.25E-02 | -0.99 -0.02 0.01 -0.04 0.00 -0.16 -0.01
1.86E-02 | -0.16 0.00 -0.01 -0.02 0.00 0.99 0.05
2.38E+00 | 0.00 0.33 0.00 0.00 0.00 0.05 -0.94
5.59E+00 | 0.02 -0.94 0.00 -0.01 0.00 0.02 -0.33
2.11E+04 | 0.00 0.00 0.00 0.02 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 123.691 +/- 0.170543 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.29498 1
3 3 1 gaussian norm 1.31830 +/- 0.849945E-02 1
4 4 2 powerlaw PhoIndex 2.36613 +/- 2.48497 1
5 5 2 powerlaw norm 11.7430 +/- 145.087 1
6 6 3 gaussian LineE keV 122.055 +/- 0.174134 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.74566 2
8 3 3 gaussian norm 1.31830 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 11.7430 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 14793.88 using 198 PHA bins.
Reduced chi-squared = 77.86251 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 ( 75.096) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 75.096) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.182 photons ( 2.4216E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.150 photons ( 2.3347E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:13 01-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 3.224 +/- 7.7209E-03
Net count rate (cts/s) for file 2 3.224 +/- 7.7209E-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 = 301838.8 using 168 PHA bins.
Reduced chi-squared = 1886.492 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 19250.38 using 168 PHA bins.
Reduced chi-squared = 120.3148 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2985.74 -3 85.85 13.33 0.1746 0.9665
0.7087 86.21 12.22 0.9577
978.753 -4 75.33 12.27 0.1784 0.8866
0.5736 78.28 10.81 0.8890
817.867 -3 80.89 9.538 0.1633 0.9506
0.7348 81.37 9.812 0.9481
552.246 -4 78.20 10.30 0.1911 0.9541
0.7587 80.58 9.942 0.9539
540.401 -5 78.77 9.844 0.1843 0.9502
0.7530 80.72 9.671 0.9506
529.889 -6 78.59 9.331 0.1878 0.9509
0.7524 80.70 9.828 0.9511
529.599 -7 78.52 9.464 0.1889 0.9511
0.7520 80.69 9.840 0.9512
529.565 -8 78.54 9.413 0.1884 0.9508
0.7518 80.69 9.820 0.9510
529.560 -9 78.53 9.434 0.1886 0.9509
0.7519 80.69 9.831 0.9511
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
8.67E-07 | 0.00 0.00 -0.25 0.64 -0.40 0.00 0.00 0.61
1.11E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
8.91E-06 | 0.00 0.01 -0.97 -0.15 0.12 0.00 0.01 -0.16
1.09E-03 | 0.03 0.02 -0.02 -0.30 -0.91 0.03 0.02 -0.29
3.68E-02 | -0.12 -0.75 0.00 0.00 0.00 0.10 0.64 0.00
7.79E-02 | -0.20 0.61 0.01 0.00 0.01 -0.29 0.71 0.00
5.20E-02 | 0.92 -0.06 0.00 0.01 0.02 -0.34 0.16 0.01
5.77E-02 | -0.30 -0.26 0.00 -0.01 -0.04 -0.89 -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 78.5337 +/- 0.230773 1
2 2 1 gaussian Sigma keV 9.43373 +/- 0.231224 1
3 3 1 gaussian norm 0.188602 +/- 0.420550E-02 1
4 4 2 powerlaw PhoIndex 0.950947 +/- 0.107236E-01 1
5 5 2 powerlaw norm 0.751902 +/- 0.320618E-01 1
6 6 3 gaussian LineE keV 80.6925 +/- 0.241836 2
7 7 3 gaussian Sigma keV 9.83096 +/- 0.243101 2
8 3 3 gaussian norm 0.188602 = par 3 2
9 8 4 powerlaw PhoIndex 0.951138 +/- 0.102988E-01 2
10 5 4 powerlaw norm 0.751902 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 529.5601 using 168 PHA bins.
Reduced chi-squared = 3.309750 for 160 degrees of freedom
Null hypothesis probability = 4.137E-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 ( 3.171) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.171) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.233 photons ( 1.4831E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.232 photons ( 1.4886E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
74.51546
=====best line=====
78.5338 0.230764
=====best sigma=====
9.43385 0.231217
=====norm=====
0.188603 0.420549E-02
=====phoindx=====
0.950948 0.107235E-01
=====pow_norm=====
0.751907 0.320618E-01
=====best line=====
80.6926 0.241842
=====best sigma=====
9.83096 0.243107
=====norm=====
0.188603 par
=====phoindx=====
0.951140 0.102987E-01
=====pow_norm=====
0.751907 par
=====redu_chi=====
3.309754
=====area_flux=====
1.233
=====area_flux_f=====
1.232
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 12 1 640 2000 1256.5408 0 0.188603 0.420549E-02 9.43385 0.231217 0.950948 0.107235E-01 0.751907 0.320618E-01 1.233 640 2000 1291.0816 0 0.188603 0.420549E-02 9.83096 0.243107 0.951140 0.102987E-01 0.751907 0.320618E-01 1.232 3.309754 1
=====redu_chi=====
435.6486
=====best line=====
123.691 0.170543
=====best sigma=====
19.3655 2.29498
=====norm=====
1.31830 0.849945E-02
=====phoindx=====
2.36613 2.48497
=====pow_norm=====
11.7430 145.087
=====best line=====
122.055 0.174134
=====best sigma=====
19.3655 1.74566
=====norm=====
1.31830 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
11.7430 par
=====redu_chi=====
77.86251
=====area_flux=====
1.182
=====area_flux_f=====
1.150
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 12 1 1600 3200 1979.056 0 1.31830 0.849945E-02 309.848 36.71968 2.36613 2.48497 11.7430 145.087 1.182 1600 3200 1952.88 0 1.31830 0.849945E-02 309.848 27.93056 9.50000 -1.00000 11.7430 145.087 1.150 77.86251 1
=====redu_chi=====
120.3148
=====best line=====
78.5337 0.230773
=====best sigma=====
9.43373 0.231224
=====norm=====
0.188602 0.420550E-02
=====phoindx=====
0.950947 0.107236E-01
=====pow_norm=====
0.751902 0.320618E-01
=====best line=====
80.6925 0.241836
=====best sigma=====
9.83096 0.243101
=====norm=====
0.188602 par
=====phoindx=====
0.951138 0.102988E-01
=====pow_norm=====
0.751902 par
=====redu_chi=====
3.309750
=====area_flux=====
1.233
=====area_flux_f=====
1.232
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 12 1 640 2000 1256.5392 0 0.188602 0.420550E-02 9.43373 0.231224 0.950947 0.107236E-01 0.751902 0.320618E-01 1.233 640 2000 1291.08 0 0.188602 0.420550E-02 9.83096 0.243101 0.951138 0.102988E-01 0.751902 0.320618E-01 1.232 3.309750 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:14 01-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 3.232 +/- 7.7315E-03
Net count rate (cts/s) for file 2 3.232 +/- 7.7315E-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 = 217791.2 using 168 PHA bins.
Reduced chi-squared = 1361.195 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 6742.006 using 168 PHA bins.
Reduced chi-squared = 42.13754 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1604.70 -3 86.49 12.23 0.1615 0.8161
0.4684 87.74 11.51 0.8149
608.667 -4 82.89 9.738 0.1707 0.8604
0.5232 85.94 9.884 0.8594
583.726 0 83.40 9.568 0.1743 0.8600
0.5237 86.14 9.984 0.8596
576.492 -1 83.78 9.613 0.1800 0.8609
0.5243 86.29 10.42 0.8610
571.717 -2 83.82 9.705 0.1827 0.8677
0.5378 86.32 10.26 0.8677
568.195 -3 83.92 9.845 0.1873 0.8900
0.5855 86.42 10.47 0.8893
564.219 -4 83.97 9.875 0.1889 0.8998
0.6124 86.47 10.48 0.8996
563.717 -5 83.98 9.878 0.1890 0.9002
0.6149 86.47 10.48 0.9003
563.716 -6 83.98 9.878 0.1890 0.9001
0.6149 86.47 10.48 0.9003
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.93E-07 | 0.00 0.00 -0.24 0.61 -0.47 0.00 0.00 0.59
1.09E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.07E-06 | 0.00 0.01 -0.97 -0.13 0.15 0.00 0.04 -0.14
8.28E-04 | 0.02 0.02 -0.02 -0.33 -0.81 0.03 0.37 -0.31
1.70E-03 | -0.01 -0.08 0.05 0.13 0.31 0.00 0.93 0.13
5.65E-02 | 0.93 0.22 0.00 0.01 0.03 -0.29 0.02 0.01
6.84E-02 | -0.33 0.17 0.00 -0.01 -0.02 -0.93 0.02 -0.01
6.70E-02 | -0.16 0.96 0.01 0.02 0.04 0.23 0.06 0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 83.9791 +/- 0.240861 1
2 2 1 gaussian Sigma keV 9.87761 +/- 0.257055 1
3 3 1 gaussian norm 0.188980 +/- 0.484801E-02 1
4 4 2 powerlaw PhoIndex 0.900101 +/- 0.123657E-01 1
5 5 2 powerlaw norm 0.614879 +/- 0.296163E-01 1
6 6 3 gaussian LineE keV 86.4701 +/- 0.259389 2
7 7 3 gaussian Sigma keV 10.4838 +/- 0.435213E-01 2
8 3 3 gaussian norm 0.188980 = par 3 2
9 8 4 powerlaw PhoIndex 0.900332 +/- 0.118849E-01 2
10 5 4 powerlaw norm 0.614879 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 563.7158 using 168 PHA bins.
Reduced chi-squared = 3.523223 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 ( 3.376) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.376) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.250 photons ( 1.5261E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.249 photons ( 1.5323E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:14 01-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 7.358 +/- 1.1665E-02
Net count rate (cts/s) for file 2 7.358 +/- 1.1665E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.125 +/- 1.3994E-02( 56.1% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.125 +/- 1.3994E-02( 56.1% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 2180300. using 198 PHA bins.
Reduced chi-squared = 11475.26 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 74467.09 using 198 PHA bins.
Reduced chi-squared = 391.9320 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
37683.2 -3 119.8 18.33 0.5258 2.890
0.5552 121.8 17.79 2.878
21708.7 -4 115.4 19.13 1.608 7.830
1171. 117.7 19.06 7.127
21363.5 -1 115.8 19.31 1.633 9.170
5.642 117.8 19.36 8.574
18700.5 0 117.0 19.36 1.542 9.453
1.332 118.9 19.36 9.401
17120.7 0 118.2 19.36 1.486 9.483
1.9443E-02 119.9 19.37 9.491
16106.4 0 119.2 19.37 1.451 9.497
2.4595E-03 120.9 19.37 9.498
15425.1 0 120.1 19.37 1.428 9.499
4.4822E-04 121.7 19.37 9.499
14971.8 0 120.8 19.37 1.412 9.500
1.2653E-04 122.3 19.37 9.500
14658.2 0 121.4 19.37 1.401 9.500
3.5309E-05 122.9 19.37 9.500
14443.6 0 121.9 19.37 1.393 9.500
1.1348E-05 123.3 19.37 9.500
14289.8 0 122.3 19.37 1.386 9.500
4.9968E-06 123.6 19.37 9.500
14177.4 0 122.6 19.37 1.381 9.500
1.7371E-06 123.8 19.37 9.500
14096.4 0 122.8 19.37 1.377 9.500
8.7774E-08 124.0 19.37 9.500
13949.8 0 123.3 19.37 1.368 9.500
6.6090E-09 124.3 19.37 9.500
13925.5 0 123.4 19.37 1.366 9.500
1.7489E-09 124.3 19.37 9.500
13906.3 0 123.4 19.37 1.365 9.500
5.3188E-10 124.3 19.37 9.500
13893.9 0 123.5 19.37 1.364 9.500
2.2917E-10 124.3 19.37 9.500
13886.4 0 123.5 19.37 1.364 9.500
7.5291E-11 124.4 19.37 9.500
13878.2 0 123.6 19.37 1.364 9.500
3.7470E-11 124.4 19.37 9.500
13871.7 0 123.6 19.37 1.363 9.500
1.8156E-11 124.4 19.37 9.500
13809.9 0 123.7 19.37 1.356 9.500
2.5690E-12 124.4 19.37 9.500
13755.8 0 123.7 19.37 1.350 9.500
6.1151E-13 124.5 19.37 9.500
13708.2 0 123.8 19.37 1.344 9.500
1.2257E-13 124.5 19.37 9.500
Fit parameter 5 has pegged
13629.5 0 123.9 19.37 1.333 9.500
0.000 124.6 19.37 9.500
Fit parameter 5 has pegged
13596.9 0 124.0 19.37 1.328 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
13567.9 0 124.1 19.37 1.324 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
13542.2 0 124.1 19.37 1.320 9.500
0.000 124.7 19.37 9.500
Fit parameter 5 has pegged
13519.1 0 124.2 19.37 1.316 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
13498.5 0 124.3 19.37 1.313 9.500
0.000 124.8 19.37 9.500
Fit parameter 5 has pegged
13480.0 0 124.3 19.37 1.310 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
13463.4 0 124.4 19.37 1.307 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
13448.4 0 124.4 19.37 1.304 9.500
0.000 124.9 19.37 9.500
Fit parameter 5 has pegged
13434.7 0 124.5 19.37 1.302 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
13422.5 0 124.5 19.37 1.300 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
13411.4 0 124.6 19.37 1.298 9.500
0.000 125.0 19.37 9.500
Fit parameter 5 has pegged
13401.3 0 124.6 19.37 1.296 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
13392.0 0 124.7 19.37 1.294 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
13383.6 0 124.7 19.37 1.292 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
13376.0 0 124.8 19.37 1.290 9.500
0.000 125.1 19.37 9.500
Fit parameter 5 has pegged
13369.0 0 124.8 19.37 1.289 9.500
0.000 125.2 19.37 9.500
Fit parameter 5 has pegged
13362.6 0 124.9 19.37 1.288 9.500
0.000 125.2 19.37 9.500
Fit parameter 5 has pegged
13356.7 0 124.9 19.37 1.286 9.500
0.000 125.2 19.37 9.500
Fit parameter 5 has pegged
13351.3 0 125.0 19.37 1.285 9.500
0.000 125.2 19.37 9.500
Fit parameter 5 has pegged
13346.3 0 125.0 19.37 1.284 9.500
0.000 125.3 19.37 9.500
Fit parameter 5 has pegged
13341.7 0 125.0 19.37 1.283 9.500
0.000 125.3 19.37 9.500
Fit parameter 5 has pegged
13337.6 0 125.1 19.37 1.282 9.500
0.000 125.3 19.37 9.500
Fit parameter 5 has pegged
13333.7 0 125.1 19.37 1.281 9.500
0.000 125.3 19.37 9.500
Fit parameter 5 has pegged
13330.1 0 125.1 19.37 1.280 9.500
0.000 125.3 19.37 9.500
Fit parameter 5 has pegged
13326.9 0 125.2 19.37 1.279 9.500
0.000 125.4 19.37 9.500
Fit parameter 5 has pegged
13323.8 0 125.2 19.37 1.279 9.500
0.000 125.4 19.37 9.500
Fit parameter 5 has pegged
13321.0 0 125.2 19.37 1.278 9.500
0.000 125.4 19.37 9.500
Fit parameter 5 has pegged
13318.4 0 125.2 19.37 1.277 9.500
0.000 125.4 19.37 9.500
Fit parameter 5 has pegged
13316.1 0 125.3 19.37 1.277 9.500
0.000 125.4 19.37 9.500
Fit parameter 5 has pegged
13313.8 0 125.3 19.37 1.276 9.500
0.000 125.4 19.37 9.500
Fit parameter 5 has pegged
13311.7 0 125.3 19.37 1.276 9.500
0.000 125.4 19.37 9.500
Fit parameter 5 has pegged
13309.8 0 125.3 19.37 1.275 9.500
0.000 125.5 19.37 9.500
Fit parameter 5 has pegged
13308.1 0 125.4 19.37 1.275 9.500
0.000 125.5 19.37 9.500
Fit parameter 5 has pegged
13306.4 0 125.4 19.37 1.274 9.500
0.000 125.5 19.37 9.500
Fit parameter 5 has pegged
13304.9 0 125.4 19.37 1.274 9.500
0.000 125.5 19.37 9.500
Fit parameter 5 has pegged
13303.4 0 125.4 19.37 1.273 9.500
0.000 125.5 19.37 9.500
Fit parameter 5 has pegged
13302.1 0 125.4 19.37 1.273 9.500
0.000 125.5 19.37 9.500
Fit parameter 5 has pegged
13300.8 0 125.5 19.37 1.273 9.500
0.000 125.5 19.37 9.500
Fit parameter 5 has pegged
13299.6 0 125.5 19.37 1.272 9.500
0.000 125.5 19.37 9.500
Fit parameter 5 has pegged
13298.6 0 125.5 19.37 1.272 9.500
0.000 125.5 19.37 9.500
Fit parameter 5 has pegged
13297.5 0 125.5 19.37 1.272 9.500
0.000 125.5 19.37 9.500
Fit parameter 5 has pegged
13296.6 0 125.5 19.37 1.271 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13295.7 0 125.5 19.37 1.271 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13294.9 0 125.6 19.37 1.271 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13294.1 0 125.6 19.37 1.271 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13293.4 0 125.6 19.37 1.270 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13292.7 0 125.6 19.37 1.270 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13292.0 0 125.6 19.37 1.270 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13291.5 0 125.6 19.37 1.270 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13290.9 0 125.6 19.37 1.270 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13290.4 0 125.6 19.37 1.269 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13289.9 0 125.7 19.37 1.269 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13289.5 0 125.7 19.37 1.269 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13289.0 0 125.7 19.37 1.269 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13288.6 0 125.7 19.37 1.269 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13288.2 0 125.7 19.37 1.269 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13287.8 0 125.7 19.37 1.269 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13287.5 0 125.7 19.37 1.268 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13287.2 0 125.7 19.37 1.268 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13286.9 0 125.7 19.37 1.268 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13286.6 0 125.7 19.37 1.268 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13286.3 0 125.7 19.37 1.268 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13286.1 0 125.7 19.37 1.268 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13285.8 0 125.7 19.37 1.268 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13285.6 0 125.8 19.37 1.268 9.500
0.000 125.6 19.37 9.500
Fit parameter 5 has pegged
13285.4 0 125.8 19.37 1.268 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13285.2 0 125.8 19.37 1.268 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13285.0 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13284.8 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13284.6 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13284.5 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13284.3 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13284.1 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13284.0 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13283.8 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13283.7 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13283.6 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13283.5 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13283.4 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13283.3 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13283.2 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13283.1 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13283.0 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.9 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.9 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.8 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.7 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.7 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.6 0 125.8 19.37 1.267 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.5 0 125.8 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.5 0 125.8 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.4 0 125.8 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.3 0 125.8 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.3 0 125.8 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.2 0 125.8 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.2 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.1 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.1 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.1 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.0 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13282.0 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.9 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.9 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.9 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.8 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.8 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.8 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.7 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.7 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.7 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.7 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.6 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.6 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
13281.5 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.4 1 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.4 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.3 1 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.3 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.1 1 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.0 1 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13281.0 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
13280.8 1 125.9 19.37 1.265 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13280.8 0 125.9 19.37 1.266 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13280.7 1 125.9 19.37 1.265 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13280.6 1 125.9 19.37 1.265 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13280.4 1 125.9 19.37 1.265 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13280.3 1 125.9 19.37 1.265 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13280.2 1 125.9 19.37 1.265 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13280.1 1 125.9 19.37 1.265 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13279.9 1 125.9 19.37 1.265 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13279.8 1 125.9 19.37 1.265 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13279.8 1 125.9 19.37 1.265 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13279.6 1 125.9 19.37 1.265 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13279.5 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13279.4 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13279.3 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13279.2 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13279.1 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13279.0 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13278.9 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13278.8 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13278.7 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13278.6 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13278.5 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13278.4 1 125.9 19.37 1.264 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13278.3 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13278.2 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13278.1 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13278.1 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13278.0 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.9 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.8 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.7 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.6 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.6 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.4 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.4 1 125.9 19.37 1.263 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.3 1 125.9 19.37 1.262 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.2 1 125.9 19.37 1.262 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.1 1 125.9 19.37 1.262 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.1 1 125.9 19.37 1.262 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13277.0 1 125.9 19.37 1.262 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13276.9 1 125.9 19.37 1.262 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13276.9 1 125.9 19.37 1.262 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13276.8 1 125.9 19.37 1.262 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13276.7 1 125.9 19.37 1.262 9.500
0.000 125.7 19.37 9.500
Fit parameter 5 has pegged
13276.6 1 125.9 19.37 1.262 9.500
0.000 125.7 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.33E-05 | 0.00 0.00 -1.00 -0.01 0.00
2.26E-02 | -0.98 -0.02 0.01 -0.18 -0.01
1.98E-02 | -0.18 0.00 0.00 0.98 0.04
5.34E+00 | -0.02 0.94 0.00 -0.02 0.35
2.83E+00 | 0.00 -0.35 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 125.931 +/- 0.158527 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.24386 1
3 3 1 gaussian norm 1.26184 +/- 0.612331E-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 125.742 +/- 0.159758 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.76880 2
8 3 3 gaussian norm 1.26184 = 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 = 13276.63 using 198 PHA bins.
Reduced chi-squared = 69.87699 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 ( 67.394) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 67.394) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.148 photons ( 2.3793E-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 ( 2.3727E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:14 01-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 3.232 +/- 7.7315E-03
Net count rate (cts/s) for file 2 3.232 +/- 7.7315E-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 = 250580.2 using 168 PHA bins.
Reduced chi-squared = 1566.126 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12363.36 using 168 PHA bins.
Reduced chi-squared = 77.27098 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
877.427 -3 87.49 11.27 0.1885 0.8980
0.6030 88.55 10.72 0.8937
580.702 -4 83.53 10.52 0.1876 0.8928
0.5969 86.38 10.59 0.8930
565.549 -5 84.11 9.931 0.1853 0.8964
0.6069 86.48 10.33 0.8965
563.767 -6 83.98 9.891 0.1893 0.9007
0.6158 86.47 10.52 0.9008
563.718 -7 83.98 9.871 0.1888 0.8999
0.6145 86.47 10.47 0.9002
563.716 -8 83.98 9.881 0.1890 0.9002
0.6150 86.47 10.49 0.9004
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
7.92E-07 | 0.00 0.00 -0.24 0.61 -0.47 0.00 0.00 0.59
1.09E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.06E-06 | 0.00 0.01 -0.97 -0.13 0.15 0.00 0.04 -0.14
8.27E-04 | 0.02 0.02 -0.02 -0.33 -0.81 0.03 0.37 -0.31
1.69E-03 | -0.01 -0.08 0.05 0.13 0.31 0.00 0.93 0.13
5.65E-02 | 0.93 0.23 0.00 0.01 0.03 -0.29 0.02 0.01
6.83E-02 | -0.33 0.18 0.00 -0.01 -0.02 -0.93 0.02 -0.01
6.69E-02 | -0.16 0.95 0.01 0.02 0.04 0.24 0.06 0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 83.9781 +/- 0.240796 1
2 2 1 gaussian Sigma keV 9.88074 +/- 0.256884 1
3 3 1 gaussian norm 0.189033 +/- 0.484146E-02 1
4 4 2 powerlaw PhoIndex 0.900168 +/- 0.123550E-01 1
5 5 2 powerlaw norm 0.615002 +/- 0.295750E-01 1
6 6 3 gaussian LineE keV 86.4699 +/- 0.259187 2
7 7 3 gaussian Sigma keV 10.4873 +/- 0.434626E-01 2
8 3 3 gaussian norm 0.189033 = par 3 2
9 8 4 powerlaw PhoIndex 0.900391 +/- 0.118747E-01 2
10 5 4 powerlaw norm 0.615002 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 563.7164 using 168 PHA bins.
Reduced chi-squared = 3.523228 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 ( 3.376) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.376) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.250 photons ( 1.5260E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.249 photons ( 1.5323E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
42.13754
=====best line=====
83.9791 0.240861
=====best sigma=====
9.87761 0.257055
=====norm=====
0.188980 0.484801E-02
=====phoindx=====
0.900101 0.123657E-01
=====pow_norm=====
0.614879 0.296163E-01
=====best line=====
86.4701 0.259389
=====best sigma=====
10.4838 0.435213E-01
=====norm=====
0.188980 par
=====phoindx=====
0.900332 0.118849E-01
=====pow_norm=====
0.614879 par
=====redu_chi=====
3.523223
=====area_flux=====
1.250
=====area_flux_f=====
1.249
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 13 1 640 2000 1343.6656 0 0.188980 0.484801E-02 9.87761 0.257055 0.900101 0.123657E-01 0.614879 0.296163E-01 1.250 640 2000 1383.5216 0 0.188980 0.484801E-02 10.4838 0.435213E-01 0.900332 0.118849E-01 0.614879 0.296163E-01 1.249 3.523223 1
=====redu_chi=====
391.9320
=====best line=====
125.931 0.158527
=====best sigma=====
19.3655 2.24386
=====norm=====
1.26184 0.612331E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
125.742 0.159758
=====best sigma=====
19.3655 1.76880
=====norm=====
1.26184 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
69.87699
=====area_flux=====
1.148
=====area_flux_f=====
1.146
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 13 1 1600 3200 2014.896 0 1.26184 0.612331E-02 309.848 35.90176 9.50000 -1.00000 0.00000 -1.00000 1.148 1600 3200 2011.872 0 1.26184 0.612331E-02 309.848 28.3008 9.50000 -1.00000 0.00000 -1.00000 1.146 69.87699 1
=====redu_chi=====
77.27098
=====best line=====
83.9781 0.240796
=====best sigma=====
9.88074 0.256884
=====norm=====
0.189033 0.484146E-02
=====phoindx=====
0.900168 0.123550E-01
=====pow_norm=====
0.615002 0.295750E-01
=====best line=====
86.4699 0.259187
=====best sigma=====
10.4873 0.434626E-01
=====norm=====
0.189033 par
=====phoindx=====
0.900391 0.118747E-01
=====pow_norm=====
0.615002 par
=====redu_chi=====
3.523228
=====area_flux=====
1.250
=====area_flux_f=====
1.249
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 13 1 640 2000 1343.6496 0 0.189033 0.484146E-02 9.88074 0.256884 0.900168 0.123550E-01 0.615002 0.295750E-01 1.250 640 2000 1383.5184 0 0.189033 0.484146E-02 10.4873 0.434626E-01 0.900391 0.118747E-01 0.615002 0.295750E-01 1.249 3.523228 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:15 01-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 3.285 +/- 7.7944E-03
Net count rate (cts/s) for file 2 3.285 +/- 7.7944E-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 = 250938.2 using 168 PHA bins.
Reduced chi-squared = 1568.364 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15340.52 using 168 PHA bins.
Reduced chi-squared = 95.87823 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4316.14 -3 82.43 16.50 0.2505 1.008
0.7745 82.66 16.10 0.9998
1008.82 -3 74.15 8.115 0.1497 0.8619
0.5530 75.84 8.262 0.8669
790.244 -1 75.44 9.683 0.1898 0.8694
0.5530 77.45 11.74 0.8704
625.792 -2 75.76 9.342 0.1963 0.8955
0.6081 77.46 9.840 0.8948
590.621 -2 75.79 9.663 0.2043 0.9156
0.6597 77.72 10.41 0.9153
563.125 -2 75.91 9.539 0.2026 0.9308
0.7062 77.79 9.980 0.9306
548.490 -2 75.96 9.608 0.2043 0.9432
0.7446 77.88 9.981 0.9432
543.833 -3 76.15 9.627 0.2060 0.9778
0.8518 78.08 9.993 0.9769
526.354 -4 76.22 9.654 0.2070 0.9897
0.9052 78.15 10.01 0.9896
525.158 -5 76.23 9.653 0.2069 0.9896
0.9089 78.15 10.02 0.9901
525.158 0 76.23 9.653 0.2069 0.9896
0.9089 78.15 10.02 0.9901
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.03E-07 | 0.00 0.00 -0.25 0.66 -0.34 0.00 0.00 0.63
1.09E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.86E-06 | 0.00 0.01 -0.97 -0.16 0.10 0.00 0.03 -0.16
1.43E-03 | 0.04 0.01 -0.01 -0.25 -0.93 0.04 0.09 -0.24
3.47E-03 | 0.00 0.10 -0.03 -0.03 -0.08 -0.02 -0.99 -0.03
6.17E-02 | 0.54 -0.53 -0.01 0.01 0.04 0.64 -0.07 0.01
4.57E-02 | 0.73 0.67 0.01 0.01 0.04 -0.05 0.07 0.01
5.11E-02 | 0.41 -0.50 -0.01 -0.01 -0.02 -0.76 -0.03 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.2255 +/- 0.226276 1
2 2 1 gaussian Sigma keV 9.65281 +/- 0.226242 1
3 3 1 gaussian norm 0.206931 +/- 0.443023E-02 1
4 4 2 powerlaw PhoIndex 0.989645 +/- 0.103763E-01 1
5 5 2 powerlaw norm 0.908890 +/- 0.377923E-01 1
6 6 3 gaussian LineE keV 78.1494 +/- 0.235313 2
7 7 3 gaussian Sigma keV 10.0157 +/- 0.632921E-01 2
8 3 3 gaussian norm 0.206931 = par 3 2
9 8 4 powerlaw PhoIndex 0.990122 +/- 0.996451E-02 2
10 5 4 powerlaw norm 0.908890 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 525.1580 using 168 PHA bins.
Reduced chi-squared = 3.282237 for 160 degrees of freedom
Null hypothesis probability = 1.940E-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 ( 3.145) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.145) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.278 photons ( 1.5248E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.276 photons ( 1.5286E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:15 01-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 7.975 +/- 1.2144E-02
Net count rate (cts/s) for file 2 7.975 +/- 1.2144E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.690 +/- 1.4430E-02( 58.8% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.690 +/- 1.4430E-02( 58.8% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 5966954. using 198 PHA bins.
Reduced chi-squared = 31405.02 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 80290.56 using 198 PHA bins.
Reduced chi-squared = 422.5819 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
42965.4 -3 119.7 19.00 0.4936 2.868
0.1963 109.3 18.99 2.813
18661.5 -2 107.2 19.23 1.697 7.130
3.1729E-02 112.9 19.33 9.407
17298.6 -1 109.6 19.31 1.663 9.279
6.9263E-03 112.5 19.36 9.480
17040.8 -1 110.9 19.36 1.674 1.280
2.6890E-03 112.2 19.36 9.493
16825.3 -1 111.6 19.36 1.672 3.702
1.2752E-03 112.1 19.36 9.499
16597.6 -1 112.0 19.36 1.662 8.306
2.9591E-04 112.1 19.37 9.499
15395.0 0 112.9 19.37 1.586 9.134
1.3098E-04 112.7 19.37 9.500
14662.6 0 113.9 19.37 1.537 9.361
5.2760E-05 113.3 19.37 9.500
14185.4 0 114.8 19.37 1.505 9.470
1.2598E-05 113.9 19.37 9.500
13868.7 0 115.6 19.37 1.480 9.490
4.9020E-06 114.4 19.37 9.500
13661.7 0 116.3 19.37 1.460 9.498
7.7042E-07 114.9 19.37 9.500
13529.7 0 116.8 19.37 1.445 9.499
2.3767E-07 115.2 19.37 9.500
13445.6 0 117.2 19.37 1.433 9.500
1.0194E-07 115.5 19.37 9.500
13389.6 0 117.6 19.37 1.423 9.500
3.3065E-08 115.7 19.37 9.500
13296.1 0 118.1 19.37 1.407 9.500
4.4910E-09 115.8 19.37 9.500
13245.3 0 118.3 19.37 1.397 9.500
1.4506E-10 115.8 19.37 9.500
13236.9 0 118.4 19.37 1.394 9.500
4.8409E-11 115.9 19.37 9.500
13232.6 0 118.4 19.37 1.392 9.500
1.5039E-13 115.9 19.37 9.500
Fit parameter 5 has pegged
13109.0 0 118.4 19.37 1.381 9.500
0.000 115.6 18.81 9.500
Fit parameter 5 has pegged
13094.2 0 118.4 19.37 1.376 9.500
0.000 115.7 18.88 9.500
Fit parameter 5 has pegged
13087.9 0 118.4 19.37 1.372 9.500
0.000 115.7 18.89 9.500
Fit parameter 5 has pegged
13085.0 0 118.4 19.37 1.371 9.500
0.000 115.7 18.89 9.500
Fit parameter 5 has pegged
13081.8 0 118.4 19.37 1.370 9.500
0.000 115.8 18.89 9.500
Fit parameter 5 has pegged
13079.4 0 118.4 19.37 1.369 9.500
0.000 115.8 18.88 9.500
Fit parameter 5 has pegged
13077.8 0 118.4 19.37 1.368 9.500
0.000 115.8 18.87 9.500
Fit parameter 5 has pegged
13077.1 0 118.4 19.37 1.368 9.500
0.000 115.8 18.87 9.500
Fit parameter 5 has pegged
13070.7 0 118.5 19.37 1.366 9.500
0.000 115.8 18.87 9.500
Fit parameter 5 has pegged
13064.8 0 118.5 19.37 1.365 9.500
0.000 115.8 18.86 9.500
Fit parameter 5 has pegged
13059.4 0 118.6 19.37 1.364 9.500
0.000 115.8 18.86 9.500
Fit parameter 5 has pegged
13054.6 0 118.6 19.37 1.362 9.500
0.000 115.8 18.86 9.500
Fit parameter 5 has pegged
13050.2 0 118.7 19.37 1.361 9.500
0.000 115.8 18.86 9.500
Fit parameter 5 has pegged
13046.1 0 118.7 19.37 1.360 9.500
0.000 115.8 18.86 9.500
Fit parameter 5 has pegged
13042.4 0 118.8 19.37 1.359 9.500
0.000 115.8 18.86 9.500
Fit parameter 5 has pegged
13039.0 0 118.8 19.37 1.358 9.500
0.000 115.8 18.86 9.500
Fit parameter 5 has pegged
13036.0 0 118.9 19.37 1.357 9.500
0.000 115.8 18.85 9.500
Fit parameter 5 has pegged
13033.2 0 118.9 19.37 1.356 9.500
0.000 115.8 18.85 9.500
Fit parameter 5 has pegged
13030.6 0 118.9 19.37 1.355 9.500
0.000 115.9 18.85 9.500
Fit parameter 5 has pegged
13028.2 0 119.0 19.37 1.355 9.500
0.000 115.9 18.85 9.500
Fit parameter 5 has pegged
13026.1 0 119.0 19.37 1.354 9.500
0.000 115.9 18.84 9.500
Fit parameter 5 has pegged
13024.0 0 119.0 19.37 1.353 9.500
0.000 115.9 18.84 9.500
Fit parameter 5 has pegged
13022.2 0 119.1 19.37 1.352 9.500
0.000 115.9 18.84 9.500
Fit parameter 5 has pegged
13020.4 0 119.1 19.37 1.352 9.500
0.000 115.9 18.83 9.500
Fit parameter 5 has pegged
13018.9 0 119.1 19.37 1.351 9.500
0.000 115.9 18.83 9.500
Fit parameter 5 has pegged
13017.4 0 119.1 19.37 1.350 9.500
0.000 115.9 18.83 9.500
Fit parameter 5 has pegged
13016.0 0 119.2 19.37 1.350 9.500
0.000 115.9 18.83 9.500
Fit parameter 5 has pegged
13014.8 0 119.2 19.37 1.349 9.500
0.000 115.9 18.82 9.500
Fit parameter 5 has pegged
13013.7 0 119.2 19.37 1.349 9.500
0.000 115.9 18.82 9.500
Fit parameter 5 has pegged
13012.6 0 119.2 19.37 1.348 9.500
0.000 115.9 18.82 9.500
Fit parameter 5 has pegged
13011.6 0 119.2 19.37 1.348 9.500
0.000 115.9 18.81 9.500
Fit parameter 5 has pegged
13010.6 0 119.2 19.37 1.347 9.500
0.000 115.9 18.81 9.500
Fit parameter 5 has pegged
13009.7 0 119.3 19.37 1.347 9.500
0.000 116.0 18.81 9.500
Fit parameter 5 has pegged
13008.9 0 119.3 19.37 1.346 9.500
0.000 116.0 18.81 9.500
Fit parameter 5 has pegged
13008.2 0 119.3 19.37 1.346 9.500
0.000 116.0 18.80 9.500
Fit parameter 5 has pegged
13007.4 0 119.3 19.37 1.345 9.500
0.000 116.0 18.80 9.500
Fit parameter 5 has pegged
13006.8 0 119.3 19.37 1.345 9.500
0.000 116.0 18.80 9.500
Fit parameter 5 has pegged
13006.2 0 119.3 19.37 1.345 9.500
0.000 116.0 18.79 9.500
Fit parameter 5 has pegged
13005.6 0 119.3 19.37 1.344 9.500
0.000 116.0 18.79 9.500
Fit parameter 5 has pegged
13005.0 0 119.4 19.37 1.344 9.500
0.000 116.0 18.79 9.500
Fit parameter 5 has pegged
13004.6 0 119.4 19.37 1.344 9.500
0.000 116.0 18.79 9.500
Fit parameter 5 has pegged
13004.1 0 119.4 19.37 1.343 9.500
0.000 116.0 18.78 9.500
Fit parameter 5 has pegged
13003.6 0 119.4 19.37 1.343 9.500
0.000 116.0 18.78 9.500
Fit parameter 5 has pegged
13003.2 0 119.4 19.37 1.343 9.500
0.000 116.0 18.78 9.500
Fit parameter 5 has pegged
13002.8 0 119.4 19.37 1.342 9.500
0.000 116.0 18.78 9.500
Fit parameter 5 has pegged
13002.3 0 119.4 19.37 1.342 9.500
0.000 116.0 18.77 9.500
Fit parameter 5 has pegged
13002.0 0 119.4 19.37 1.342 9.500
0.000 116.1 18.77 9.500
Fit parameter 5 has pegged
13001.7 0 119.4 19.37 1.342 9.500
0.000 116.1 18.77 9.500
Fit parameter 5 has pegged
13001.3 0 119.4 19.37 1.341 9.500
0.000 116.1 18.77 9.500
Fit parameter 5 has pegged
13001.0 0 119.4 19.37 1.341 9.500
0.000 116.1 18.76 9.500
Fit parameter 5 has pegged
13000.8 0 119.5 19.37 1.341 9.500
0.000 116.1 18.76 9.500
Fit parameter 5 has pegged
13000.4 0 119.5 19.37 1.341 9.500
0.000 116.1 18.76 9.500
Fit parameter 5 has pegged
13000.2 0 119.5 19.37 1.340 9.500
0.000 116.1 18.76 9.500
Fit parameter 5 has pegged
12999.9 0 119.5 19.37 1.340 9.500
0.000 116.1 18.75 9.500
Fit parameter 5 has pegged
12999.6 0 119.5 19.37 1.340 9.500
0.000 116.1 18.75 9.500
Fit parameter 5 has pegged
12999.4 0 119.5 19.37 1.340 9.500
0.000 116.1 18.75 9.500
Fit parameter 5 has pegged
12999.2 0 119.5 19.37 1.340 9.500
0.000 116.1 18.75 9.500
Fit parameter 5 has pegged
12999.0 0 119.5 19.37 1.339 9.500
0.000 116.1 18.75 9.500
Fit parameter 5 has pegged
12998.8 0 119.5 19.37 1.339 9.500
0.000 116.1 18.74 9.500
Fit parameter 5 has pegged
12998.6 0 119.5 19.37 1.339 9.500
0.000 116.1 18.74 9.500
Fit parameter 5 has pegged
12998.5 0 119.5 19.37 1.339 9.500
0.000 116.1 18.74 9.500
Fit parameter 5 has pegged
12998.3 0 119.5 19.37 1.339 9.500
0.000 116.1 18.74 9.500
Fit parameter 5 has pegged
12998.1 0 119.5 19.37 1.339 9.500
0.000 116.1 18.74 9.500
Fit parameter 5 has pegged
12998.0 0 119.5 19.37 1.338 9.500
0.000 116.2 18.73 9.500
Fit parameter 5 has pegged
12997.9 0 119.5 19.37 1.338 9.500
0.000 116.2 18.73 9.500
Fit parameter 5 has pegged
12997.7 0 119.5 19.37 1.338 9.500
0.000 116.2 18.73 9.500
Fit parameter 5 has pegged
12997.6 0 119.5 19.37 1.338 9.500
0.000 116.2 18.73 9.500
Fit parameter 5 has pegged
12997.5 0 119.5 19.37 1.338 9.500
0.000 116.2 18.73 9.500
Fit parameter 5 has pegged
12997.3 0 119.5 19.37 1.338 9.500
0.000 116.2 18.73 9.500
Fit parameter 5 has pegged
12997.2 0 119.5 19.37 1.338 9.500
0.000 116.2 18.72 9.500
Fit parameter 5 has pegged
12997.0 0 119.5 19.37 1.337 9.500
0.000 116.2 18.72 9.500
Fit parameter 5 has pegged
12997.0 0 119.5 19.37 1.337 9.500
0.000 116.2 18.72 9.500
Fit parameter 5 has pegged
12996.9 0 119.5 19.37 1.337 9.500
0.000 116.2 18.72 9.500
Fit parameter 5 has pegged
12996.8 0 119.5 19.37 1.337 9.500
0.000 116.2 18.72 9.500
Fit parameter 5 has pegged
12996.7 0 119.5 19.37 1.337 9.500
0.000 116.2 18.72 9.500
Fit parameter 5 has pegged
12996.6 0 119.5 19.37 1.337 9.500
0.000 116.2 18.72 9.500
Fit parameter 5 has pegged
12996.5 0 119.6 19.37 1.337 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12996.4 0 119.6 19.37 1.337 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12996.4 0 119.6 19.37 1.337 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12996.3 0 119.6 19.37 1.336 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12996.2 0 119.6 19.37 1.336 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12996.2 0 119.6 19.37 1.336 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12996.1 0 119.6 19.37 1.336 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12996.0 0 119.6 19.37 1.336 9.500
0.000 116.2 18.71 9.500
Fit parameter 5 has pegged
12995.9 0 119.6 19.37 1.336 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12995.9 0 119.6 19.37 1.336 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12995.9 0 119.6 19.37 1.336 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12995.9 0 119.6 19.37 1.336 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12995.8 0 119.6 19.37 1.336 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12995.7 0 119.6 19.37 1.336 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12995.7 1 119.6 19.37 1.336 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12995.6 0 119.6 19.37 1.335 9.500
0.000 116.2 18.70 9.500
Fit parameter 5 has pegged
12995.6 0 119.6 19.37 1.335 9.500
0.000 116.2 18.70 9.500
12995.5 0 119.6 19.37 1.335 9.500
0.000 116.3 18.70 9.500
Fit parameter 5 has pegged
12995.4 0 119.6 19.37 1.335 9.500
0.000 116.3 18.70 9.500
Fit parameter 5 has pegged
12995.4 1 119.6 19.37 1.335 9.500
0.000 116.3 18.70 9.500
12995.4 5 119.6 19.37 1.335 9.500
0.000 116.3 18.70 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.55E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.44E-02 | 0.15 0.00 0.01 -0.93 -0.35
2.05E-02 | -0.99 -0.06 0.01 -0.12 -0.10
2.75E+00 | 0.06 -1.00 0.00 0.03 -0.05
1.31E-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 119.587 +/- 0.176690 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.65360 1
3 3 1 gaussian norm 1.33531 +/- 0.672102E-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 116.265 +/- 0.177590 2
7 7 3 gaussian Sigma keV 18.7008 +/- 0.348451 2
8 3 3 gaussian norm 1.33531 = 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 = 12995.39 using 198 PHA bins.
Reduced chi-squared = 68.39680 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 ( 65.966) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 65.966) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.127 photons ( 2.2584E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.079 photons ( 2.1184E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:15 01-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 3.285 +/- 7.7944E-03
Net count rate (cts/s) for file 2 3.285 +/- 7.7944E-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 = 305950.2 using 168 PHA bins.
Reduced chi-squared = 1912.188 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 23964.86 using 168 PHA bins.
Reduced chi-squared = 149.7804 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8413.33 -3 85.48 14.22 0.1787 1.042
0.8502 85.50 13.30 1.030
1651.93 -4 71.08 15.91 0.2248 0.9251
0.6974 73.61 14.03 0.9299
1194.83 -2 80.10 7.296 0.1401 0.9513
0.7934 79.79 9.192 0.9474
850.774 -3 76.76 13.15 0.1971 0.9907
0.9070 77.84 10.81 0.9897
558.473 -4 76.77 9.446 0.1883 0.9866
0.9123 78.35 9.865 0.9872
539.914 -5 76.16 9.824 0.2086 0.9904
0.9108 78.13 10.77 0.9909
525.794 -6 76.26 9.536 0.2042 0.9887
0.9076 78.16 9.967 0.9891
525.226 -7 76.21 9.699 0.2076 0.9898
0.9089 78.14 10.08 0.9903
525.193 -8 76.23 9.636 0.2067 0.9895
0.9088 78.15 9.994 0.9900
525.161 -9 76.22 9.661 0.2071 0.9896
0.9089 78.15 10.01 0.9901
525.161 -2 76.23 9.652 0.2069 0.9896
0.9089 78.15 10.01 0.9901
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.03E-07 | 0.00 0.00 -0.25 0.66 -0.34 0.00 0.00 0.63
1.09E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.86E-06 | 0.00 0.01 -0.97 -0.16 0.10 0.00 0.03 -0.16
1.43E-03 | 0.04 0.01 -0.01 -0.25 -0.93 0.04 0.09 -0.24
3.50E-03 | 0.00 0.10 -0.03 -0.03 -0.08 -0.02 -0.99 -0.03
6.17E-02 | 0.54 -0.54 -0.01 0.01 0.04 0.64 -0.07 0.01
4.58E-02 | 0.74 0.67 0.01 0.01 0.04 -0.06 0.07 0.01
5.11E-02 | 0.40 -0.50 -0.01 -0.01 -0.02 -0.77 -0.03 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 76.2265 +/- 0.226402 1
2 2 1 gaussian Sigma keV 9.65157 +/- 0.226385 1
3 3 1 gaussian norm 0.206912 +/- 0.443220E-02 1
4 4 2 powerlaw PhoIndex 0.989616 +/- 0.103773E-01 1
5 5 2 powerlaw norm 0.908926 +/- 0.377960E-01 1
6 6 3 gaussian LineE keV 78.1495 +/- 0.235066 2
7 7 3 gaussian Sigma keV 10.0113 +/- 0.636244E-01 2
8 3 3 gaussian norm 0.206912 = par 3 2
9 8 4 powerlaw PhoIndex 0.990129 +/- 0.996555E-02 2
10 5 4 powerlaw norm 0.908926 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 525.1609 using 168 PHA bins.
Reduced chi-squared = 3.282256 for 160 degrees of freedom
Null hypothesis probability = 1.938E-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 ( 3.145) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.145) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.278 photons ( 1.5250E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.276 photons ( 1.5286E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
95.87823
=====best line=====
76.2255 0.226276
=====best sigma=====
9.65281 0.226242
=====norm=====
0.206931 0.443023E-02
=====phoindx=====
0.989645 0.103763E-01
=====pow_norm=====
0.908890 0.377923E-01
=====best line=====
78.1494 0.235313
=====best sigma=====
10.0157 0.632921E-01
=====norm=====
0.206931 par
=====phoindx=====
0.990122 0.996451E-02
=====pow_norm=====
0.908890 par
=====redu_chi=====
3.282237
=====area_flux=====
1.278
=====area_flux_f=====
1.276
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 14 1 640 2000 1219.608 0 0.206931 0.443023E-02 9.65281 0.226242 0.989645 0.103763E-01 0.908890 0.377923E-01 1.278 640 2000 1250.3904 0 0.206931 0.443023E-02 10.0157 0.632921E-01 0.990122 0.996451E-02 0.908890 0.377923E-01 1.276 3.282237 1
=====redu_chi=====
422.5819
=====best line=====
119.587 0.176690
=====best sigma=====
19.3655 1.65360
=====norm=====
1.33531 0.672102E-02
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.265 0.177590
=====best sigma=====
18.7008 0.348451
=====norm=====
1.33531 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
68.39680
=====area_flux=====
1.127
=====area_flux_f=====
1.079
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 14 1 1600 3200 1913.392 0 1.33531 0.672102E-02 309.848 26.4576 9.50001 -1.00000 0.00000 -1.00000 1.127 1600 3200 1860.24 0 1.33531 0.672102E-02 299.2128 5.575216 9.50000 -1.00000 0.00000 -1.00000 1.079 68.39680 1
=====redu_chi=====
149.7804
=====best line=====
76.2265 0.226402
=====best sigma=====
9.65157 0.226385
=====norm=====
0.206912 0.443220E-02
=====phoindx=====
0.989616 0.103773E-01
=====pow_norm=====
0.908926 0.377960E-01
=====best line=====
78.1495 0.235066
=====best sigma=====
10.0113 0.636244E-01
=====norm=====
0.206912 par
=====phoindx=====
0.990129 0.996555E-02
=====pow_norm=====
0.908926 par
=====redu_chi=====
3.282256
=====area_flux=====
1.278
=====area_flux_f=====
1.276
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 14 1 640 2000 1219.624 0 0.206912 0.443220E-02 9.65157 0.226385 0.989616 0.103773E-01 0.908926 0.377960E-01 1.278 640 2000 1250.392 0 0.206912 0.443220E-02 10.0113 0.636244E-01 0.990129 0.996555E-02 0.908926 0.377960E-01 1.276 3.282256 1
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 14:06:15 01-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 3.196 +/- 7.6873E-03
Net count rate (cts/s) for file 2 3.196 +/- 7.6873E-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 = 262150.1 using 168 PHA bins.
Reduced chi-squared = 1638.438 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12216.62 using 168 PHA bins.
Reduced chi-squared = 76.35390 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2041.01 -3 82.90 15.50 0.2113 0.9379
0.6400 83.71 14.77 0.9319
1447.57 -4 76.10 7.716 0.1103 0.8424
0.4959 78.67 8.467 0.8449
1262.15 -1 77.83 11.18 0.1752 0.8514
0.4918 80.22 14.40 0.8518
820.168 -2 78.33 9.593 0.1630 0.8760
0.5459 79.40 8.749 0.8749
798.826 -1 77.98 9.413 0.1884 0.8802
0.5483 79.99 12.32 0.8800
652.836 -2 78.10 9.563 0.1918 0.9040
0.6000 79.95 9.862 0.9027
646.896 0 78.10 9.574 0.1934 0.9035
0.6015 80.04 10.57 0.9029
638.156 -1 78.09 9.662 0.1967 0.9058
0.6070 80.06 10.30 0.9057
612.106 -2 78.18 9.727 0.1995 0.9253
0.6542 80.18 10.43 0.9246
593.038 -2 78.26 9.733 0.2004 0.9399
0.6969 80.27 10.42 0.9393
580.883 -2 78.32 9.765 0.2015 0.9516
0.7328 80.33 10.45 0.9512
576.592 -3 78.49 9.854 0.2050 0.9860
0.8360 80.52 10.54 0.9847
561.329 -4 78.56 9.875 0.2062 0.9986
0.8903 80.59 10.56 0.9981
560.087 -5 78.57 9.878 0.2063 0.9987
0.8945 80.60 10.56 0.9988
560.086 -6 78.57 9.878 0.2063 0.9986
0.8945 80.60 10.56 0.9987
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.51E-07 | 0.00 0.00 -0.26 0.65 -0.34 0.00 0.00 0.63
1.16E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.68E-06 | 0.00 0.01 -0.96 -0.17 0.11 0.00 0.05 -0.17
1.23E-03 | 0.02 -0.04 0.03 -0.12 -0.47 0.03 0.86 -0.12
1.67E-03 | -0.04 -0.06 0.04 0.23 0.80 -0.03 0.50 0.22
4.73E-02 | 0.79 0.60 0.01 0.01 0.05 -0.12 0.04 0.01
6.37E-02 | 0.40 -0.36 0.00 0.01 0.04 0.84 -0.03 0.01
5.39E-02 | 0.47 -0.71 -0.01 -0.01 -0.02 -0.53 -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 78.5680 +/- 0.226593 1
2 2 1 gaussian Sigma keV 9.87785 +/- 0.229257 1
3 3 1 gaussian norm 0.206312 +/- 0.451313E-02 1
4 4 2 powerlaw PhoIndex 0.998629 +/- 0.111556E-01 1
5 5 2 powerlaw norm 0.894465 +/- 0.394958E-01 1
6 6 3 gaussian LineE keV 80.5962 +/- 0.246246 2
7 7 3 gaussian Sigma keV 10.5599 +/- 0.395026E-01 2
8 3 3 gaussian norm 0.206312 = par 3 2
9 8 4 powerlaw PhoIndex 0.998749 +/- 0.107200E-01 2
10 5 4 powerlaw norm 0.894465 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 560.0856 using 168 PHA bins.
Reduced chi-squared = 3.500535 for 160 degrees of freedom
Null hypothesis probability = 1.401E-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 ( 3.354) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.354) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.221 photons ( 1.4636E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.220 photons ( 1.4696E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 14:06:15 01-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 7.477 +/- 1.1759E-02
Net count rate (cts/s) for file 2 7.477 +/- 1.1759E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.282 +/- 1.4049E-02( 57.3% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.282 +/- 1.4049E-02( 57.3% total)
using background file... ae403025010_hxdmkgainhist_tmp/ae403025010_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 = 4276244. using 198 PHA bins.
Reduced chi-squared = 22506.55 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 86826.23 using 198 PHA bins.
Reduced chi-squared = 456.9802 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
45388.9 -3 120.0 18.08 0.5286 2.878
0.2967 113.0 17.96 2.834
26040.6 -2 110.8 19.33 1.804 8.156
7.9296E-02 110.9 19.22 8.494
22755.7 0 112.1 19.36 1.699 9.056
1.8559E-03 112.3 19.30 9.281
20495.3 0 113.6 19.36 1.631 9.381
6.0893E-04 113.8 19.34 9.429
18868.1 0 115.0 19.37 1.583 9.459
4.9001E-05 115.2 19.36 9.491
17710.5 0 116.2 19.37 1.548 9.492
1.8997E-05 116.4 19.36 9.495
16893.6 0 117.3 19.37 1.520 9.497
1.1084E-06 117.4 19.37 9.499
16334.5 0 118.2 19.37 1.498 9.499
4.9691E-07 118.1 19.37 9.500
15949.0 0 119.0 19.37 1.480 9.500
1.7347E-07 118.7 19.37 9.500
15693.0 0 119.6 19.37 1.467 9.500
5.9773E-09 119.2 19.37 9.500
15271.4 0 120.8 19.37 1.437 9.500
2.7366E-11 119.8 19.37 9.500
15204.5 0 121.1 19.37 1.432 9.500
1.1534E-11 119.9 19.37 9.500
15156.9 0 121.3 19.37 1.427 9.500
3.6310E-12 120.0 19.37 9.500
15115.8 0 121.4 19.37 1.423 9.500
1.6366E-12 120.0 19.37 9.500
15092.5 0 121.6 19.37 1.421 9.500
6.3976E-13 120.1 19.37 9.500
Fit parameter 5 has pegged
15023.1 0 121.7 19.37 1.410 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
15001.5 0 121.7 19.37 1.406 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14994.0 0 121.7 19.37 1.405 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14989.1 0 121.8 19.37 1.404 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14988.3 0 121.8 19.37 1.404 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14987.8 0 121.8 19.37 1.404 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14987.2 0 121.8 19.37 1.404 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14987.1 0 121.8 19.37 1.404 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14986.9 0 121.8 19.37 1.404 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14985.8 0 121.8 19.37 1.404 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14982.7 0 121.8 19.37 1.403 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14980.7 0 121.8 19.37 1.403 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14959.9 0 121.9 19.37 1.399 9.500
0.000 119.6 19.37 9.500
Fit parameter 5 has pegged
14941.0 0 122.0 19.37 1.396 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14924.0 0 122.0 19.37 1.393 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14908.6 0 122.1 19.37 1.390 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14894.6 0 122.2 19.37 1.387 9.500
0.000 119.7 19.37 9.500
Fit parameter 5 has pegged
14881.8 0 122.2 19.37 1.385 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14870.3 0 122.3 19.37 1.383 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14859.9 0 122.3 19.37 1.381 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14850.3 0 122.4 19.37 1.379 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14841.5 0 122.4 19.37 1.377 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14833.4 0 122.5 19.37 1.375 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
14826.2 0 122.5 19.37 1.373 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14819.6 0 122.6 19.37 1.372 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14813.4 0 122.6 19.37 1.371 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14807.7 0 122.7 19.37 1.369 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14802.5 0 122.7 19.37 1.368 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14797.7 0 122.8 19.37 1.367 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
14793.2 0 122.8 19.37 1.366 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14789.2 0 122.8 19.37 1.365 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14785.5 0 122.9 19.37 1.364 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14782.1 0 122.9 19.37 1.363 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14778.9 0 123.0 19.37 1.362 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14775.9 0 123.0 19.37 1.361 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14773.2 0 123.0 19.37 1.360 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14770.7 0 123.0 19.37 1.360 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14768.5 0 123.1 19.37 1.359 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
14766.3 0 123.1 19.37 1.358 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14764.3 0 123.1 19.37 1.358 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14762.4 0 123.2 19.37 1.357 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14760.7 0 123.2 19.37 1.356 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14759.1 0 123.2 19.37 1.356 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14757.7 0 123.2 19.37 1.355 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14756.3 0 123.2 19.37 1.355 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14755.0 0 123.3 19.37 1.355 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14753.8 0 123.3 19.37 1.354 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14752.7 0 123.3 19.37 1.354 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14751.7 0 123.3 19.37 1.353 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14750.8 0 123.3 19.37 1.353 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14749.9 0 123.3 19.37 1.353 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14749.1 0 123.4 19.37 1.352 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14748.3 0 123.4 19.37 1.352 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14747.6 0 123.4 19.37 1.352 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
14746.9 0 123.4 19.37 1.351 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14746.3 0 123.4 19.37 1.351 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14745.7 0 123.4 19.37 1.351 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14745.2 0 123.4 19.37 1.351 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14744.6 0 123.5 19.37 1.350 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14744.1 0 123.5 19.37 1.350 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14743.7 0 123.5 19.37 1.350 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14743.3 0 123.5 19.37 1.350 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14742.8 0 123.5 19.37 1.350 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14742.5 0 123.5 19.37 1.349 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14742.1 0 123.5 19.37 1.349 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14741.8 0 123.5 19.37 1.349 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14741.4 0 123.5 19.37 1.349 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14741.2 0 123.5 19.37 1.349 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14741.0 0 123.5 19.37 1.349 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14740.6 0 123.5 19.37 1.349 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14740.4 0 123.6 19.37 1.348 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14740.2 0 123.6 19.37 1.348 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14740.0 0 123.6 19.37 1.348 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14739.8 0 123.6 19.37 1.348 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14739.6 0 123.6 19.37 1.348 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14739.4 0 123.6 19.37 1.348 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14739.2 0 123.6 19.37 1.348 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14739.1 0 123.6 19.37 1.348 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14738.9 0 123.6 19.37 1.348 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14738.8 0 123.6 19.37 1.348 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14738.7 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14738.4 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14738.4 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14738.3 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14738.1 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14738.0 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.9 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.8 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.7 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.7 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.6 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.5 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.4 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.4 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.3 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.2 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.1 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.1 0 123.6 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.1 0 123.7 19.37 1.347 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14737.0 1 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.9 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.9 1 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.8 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.8 1 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.8 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.8 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.7 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.7 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.7 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.6 1 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.6 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.5 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.5 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
14736.4 1 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.4 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.4 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
14736.3 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.3 0 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.3 2 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.3 2 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
14736.2 4 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
14736.2 4 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
14736.2 6 123.7 19.37 1.346 9.500
0.000 120.2 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
2.37E-05 | -0.01 0.00 -1.00 -0.01 0.00
1.60E-02 | 0.21 0.00 0.01 -0.98 -0.07
1.96E-02 | -0.98 -0.04 0.01 -0.21 -0.02
3.37E+00 | -0.04 0.94 0.00 -0.03 0.34
1.86E+00 | 0.01 -0.34 0.00 -0.07 0.94
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 123.682 +/- 0.155150 1
2 2 1 gaussian Sigma keV 19.3655 +/- 1.78625 1
3 3 1 gaussian norm 1.34605 +/- 0.616989E-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 120.242 +/- 0.166582 2
7 7 3 gaussian Sigma keV 19.3655 +/- 1.42302 2
8 3 3 gaussian norm 1.34605 = 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 = 14736.20 using 198 PHA bins.
Reduced chi-squared = 77.55892 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 ( 74.803) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 74.803) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.197 photons ( 2.4506E-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 ( 2.3057E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_reb16_gti_0_slow.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_reb16_gti_0_fast.pha
with integration time 5.4076E+04
Background file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 14:06:16 01-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 3.196 +/- 7.6873E-03
Net count rate (cts/s) for file 2 3.196 +/- 7.6873E-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 = 308480.5 using 168 PHA bins.
Reduced chi-squared = 1928.003 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 19148.56 using 168 PHA bins.
Reduced chi-squared = 119.6785 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4951.40 -3 85.57 13.20 0.1777 1.008
0.7643 86.19 12.18 0.9979
1068.58 -4 75.07 12.58 0.2005 0.9452
0.7316 78.40 11.79 0.9471
940.475 -5 81.04 9.600 0.1764 1.024
0.9684 81.61 9.853 1.021
827.612 -1 78.69 11.61 0.2032 1.019
0.9773 80.78 13.37 1.019
606.457 -2 79.13 9.756 0.1864 1.011
0.9620 81.06 9.646 1.011
584.270 0 78.92 9.600 0.1911 1.012
0.9598 80.95 9.925 1.012
579.273 0 78.80 9.601 0.1947 1.012
0.9579 80.87 10.62 1.012
562.641 -1 78.63 9.900 0.2051 1.013
0.9514 80.70 10.51 1.013
561.282 -2 78.62 9.922 0.2079 1.010
0.9387 80.66 10.61 1.010
560.234 -3 78.59 9.878 0.2065 1.002
0.9067 80.62 10.56 1.002
560.096 -4 78.57 9.881 0.2064 0.9987
0.8951 80.60 10.56 0.9989
560.085 -5 78.57 9.877 0.2063 0.9986
0.8944 80.60 10.56 0.9987
560.085 -3 78.57 9.879 0.2063 0.9986
0.8945 80.60 10.56 0.9988
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
9.50E-07 | 0.00 0.00 -0.26 0.65 -0.34 0.00 0.00 0.62
1.16E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
9.67E-06 | 0.00 0.01 -0.96 -0.17 0.11 0.00 0.05 -0.17
1.23E-03 | 0.02 -0.04 0.03 -0.12 -0.48 0.03 0.86 -0.12
1.67E-03 | -0.04 -0.06 0.04 0.23 0.80 -0.03 0.50 0.22
4.73E-02 | 0.79 0.60 0.01 0.01 0.05 -0.12 0.04 0.01
6.37E-02 | 0.40 -0.36 0.00 0.01 0.04 0.84 -0.03 0.01
5.39E-02 | 0.47 -0.71 -0.01 -0.01 -0.02 -0.53 -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 78.5678 +/- 0.226567 1
2 2 1 gaussian Sigma keV 9.87854 +/- 0.229222 1
3 3 1 gaussian norm 0.206321 +/- 0.451233E-02 1
4 4 2 powerlaw PhoIndex 0.998630 +/- 0.111535E-01 1
5 5 2 powerlaw norm 0.894462 +/- 0.394879E-01 1
6 6 3 gaussian LineE keV 80.5963 +/- 0.246236 2
7 7 3 gaussian Sigma keV 10.5603 +/- 0.394982E-01 2
8 3 3 gaussian norm 0.206321 = par 3 2
9 8 4 powerlaw PhoIndex 0.998750 +/- 0.107181E-01 2
10 5 4 powerlaw norm 0.894462 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 560.0851 using 168 PHA bins.
Reduced chi-squared = 3.500532 for 160 degrees of freedom
Null hypothesis probability = 1.401E-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 ( 3.354) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 3.354) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.221 photons ( 1.4636E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.220 photons ( 1.4696E-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 : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae403025010_hxdmkgainhist_tmp/ae403025010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 5.4076E+04
No current background
No current correction
Response (RMF) file : ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.672726616904718E+08 2.672750976901278E+08 2.672808416893159E+08 2.673190176839646E+08 2.673251376832256E+08 2.673312475584107E+08
=====gti=====
=====redu_chi=====
76.35390
=====best line=====
78.5680 0.226593
=====best sigma=====
9.87785 0.229257
=====norm=====
0.206312 0.451313E-02
=====phoindx=====
0.998629 0.111556E-01
=====pow_norm=====
0.894465 0.394958E-01
=====best line=====
80.5962 0.246246
=====best sigma=====
10.5599 0.395026E-01
=====norm=====
0.206312 par
=====phoindx=====
0.998749 0.107200E-01
=====pow_norm=====
0.894465 par
=====redu_chi=====
3.500535
=====area_flux=====
1.221
=====area_flux_f=====
1.220
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
GDULT:Bad Quality
=====RES_GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 15 1 640 2000 1257.088 0 0.206312 0.451313E-02 9.87785 0.229257 0.998629 0.111556E-01 0.894465 0.394958E-01 1.221 640 2000 1289.5392 0 0.206312 0.451313E-02 10.5599 0.395026E-01 0.998749 0.107200E-01 0.894465 0.394958E-01 1.220 3.500535 1
=====redu_chi=====
456.9802
=====best line=====
123.682 0.155150
=====best sigma=====
19.3655 1.78625
=====norm=====
1.34605 0.616989E-02
=====phoindx=====
9.50005 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
120.242 0.166582
=====best sigma=====
19.3655 1.42302
=====norm=====
1.34605 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
77.55892
=====area_flux=====
1.197
=====area_flux_f=====
1.147
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
511ULT:Bad Quality
=====RES_511ULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 15 1 1600 3200 1978.912 0 1.34605 0.616989E-02 309.848 28.58 9.50005 -1.00000 0.00000 -1.00000 1.197 1600 3200 1923.872 0 1.34605 0.616989E-02 309.848 22.76832 9.50001 -1.00000 0.00000 -1.00000 1.147 77.55892 1
=====redu_chi=====
119.6785
=====best line=====
78.5678 0.226567
=====best sigma=====
9.87854 0.229222
=====norm=====
0.206321 0.451233E-02
=====phoindx=====
0.998630 0.111535E-01
=====pow_norm=====
0.894462 0.394879E-01
=====best line=====
80.5963 0.246236
=====best sigma=====
10.5603 0.394982E-01
=====norm=====
0.206321 par
=====phoindx=====
0.998750 0.107181E-01
=====pow_norm=====
0.894462 par
=====redu_chi=====
3.500532
=====area_flux=====
1.221
=====area_flux_f=====
1.220
=====exp=====
5.4076E+04
=====exp=====
5.4076E+04
=====slow_fast error=====
0 0
152GdULT:Bad Quality
=====RES_152GDULT=====
2.672726616904718E+08 2.673349295578542E+08 5.4076E+04 15 1 640 2000 1257.0848 0 0.206321 0.451233E-02 9.87854 0.229222 0.998630 0.111535E-01 0.894462 0.394879E-01 1.221 640 2000 1289.5408 0 0.206321 0.451233E-02 10.5603 0.394982E-01 0.998750 0.107181E-01 0.894462 0.394879E-01 1.220 3.500532 1
rm -rf ae403025010_xspec*.log xspec*.xcm xautosav.xcm ae403025010_hxdmkgainhist_tmp/ae403025010dmy.rsp
rm -rf ae403025010_hxdmkgainhist_tmp
-> hxdmkgainhist_gso successful for ae403025010hxd_0_wel.sff.input_name,f,a,"ae403025010hxd_0_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae403025010hxd_0.hk",,,"HK file name" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" process_id,s,a,"ae403025010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_pin
FFF= ae403025010hxd_0_wel.sff, HK= ae403025010hxd_0.hk TSTART 2.672726616904718E+08, TSOP 2.673349295578542E+08-> hxdmkgainhist_pin successful for ae403025010hxd_0_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,"ae403025010hxd_0_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,"2008-07-01",,,"Valid Date (YYYY-MM-DD)for Gain History Files" valid_time,s,a,"14:06:17",,,"Valid Time (hh:mm:ss) for Gain History Files" pin_gainhist_name,f,a,"!ae403025010hxd_0_pin.ghf",,,"HXD pin gainhistory file name" gso_gainhist_name,f,a,"!ae403025010hxd_0_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 0.015 0.000 0.015 11.28
[ 2] HXDleapsecInit 0.004 0.003 0.007 5.26
[ 3] HXDmkgainhistWriteGHF 0.064 0.004 0.068 51.13
[ 4] HXDmkgainhistWritePHA 0.003 0.001 0.004 3.01
(others) 0.027 0.012 0.039 29.32
--------------------------------------------------------------------------
TOTAL 0.113 0.020 0.133 100.00
-> hxdmkgainhist successful for ae403025010hxd_0_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,"ae403025010hxd_0_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: ae403025010hxd_0.hk
2: ae403025010.ehk
HXDpi_init: time duration = 267272657.569674 -- 267334931.560748
Opening GSO calibration files OK
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TEMP_W10_CAL' at hdu=2, col=111 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W11_CAL' at hdu=2, col=112 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W12_CAL' at hdu=2, col=113 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W13_CAL' at hdu=2, col=114 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W20_CAL' at hdu=2, col=115 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W21_CAL' at hdu=2, col=116 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W22_CAL' at hdu=2, col=117 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W23_CAL' at hdu=2, col=118 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W00_CAL' at hdu=2, col=119 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W01_CAL' at hdu=2, col=120 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W02_CAL' at hdu=2, col=121 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W03_CAL' at hdu=2, col=122 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W30_CAL' at hdu=2, col=123 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W31_CAL' at hdu=2, col=124 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W32_CAL' at hdu=2, col=125 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W33_CAL' at hdu=2, col=126 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T10_CAL' at hdu=2, col=127 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T12_CAL' at hdu=2, col=128 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T14_CAL' at hdu=2, col=129 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T21_CAL' at hdu=2, col=130 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T23_CAL' at hdu=2, col=131 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W2_CAL' at hdu=2, col=132 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P1_CAL' at hdu=2, col=133 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T1_CAL' at hdu=2, col=134 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T00_CAL' at hdu=2, col=135 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T02_CAL' at hdu=2, col=136 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T04_CAL' at hdu=2, col=137 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T31_CAL' at hdu=2, col=138 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T33_CAL' at hdu=2, col=139 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W0_CAL' at hdu=2, col=140 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P0_CAL' at hdu=2, col=141 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T3_CAL' at hdu=2, col=142 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP4_CAL' at hdu=2, col=143 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP3_CAL' at hdu=2, col=144 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY4_CAL' at hdu=2, col=145 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY3_CAL' at hdu=2, col=146 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM3_CAL' at hdu=2, col=147 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM4_CAL' at hdu=2, col=148 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR3_CAL' at hdu=2, col=149 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CENTER_CAL' at hdu=2, col=150 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP2_CAL' at hdu=2, col=151 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP1_CAL' at hdu=2, col=152 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY2_CAL' at hdu=2, col=153 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY1_CAL' at hdu=2, col=154 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM1_CAL' at hdu=2, col=155 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM2_CAL' at hdu=2, col=156 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR1_CAL' at hdu=2, col=157 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR2_CAL' at hdu=2, col=158 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'T_SAA_HXD' at hdu=2, col=29 in 'ae403025010.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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 8044209
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 8044208/8044209
[ 2] HXDrndInit version 0.2.0
| OK: 8044208/8044208
[ 3] HXDgethkInit version 0.1.0
| OK: 8044208/8044208
[ 4] HXDpiFITS version 2.1.3
| OK: 8044208/8044208
[ 5] HXDpi version 2.1.3
| OK: 8044208/8044208
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 8044208/8044208
GET: 8044208
*** 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 8044208 0 SINGLE
HXD:WEL:EV_TIME 8 8 8044208 8044208 SINGLE
HXD:WEL:MTI 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 8044208 8044208 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_RESERV 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 8044208 8044208 SINGLE
HXD:WEL:DET_TYPE 4 4 8044208 8044208 SINGLE
HXD:WEL:PI_FAST 4 4 16088416 8044208 SINGLE
HXD:WEL:PI_SLOW 4 4 16088416 8044208 SINGLE
HXD:WEL:PI_PIN 16 16 16088416 8044208 SINGLE
HXD:WEL:UPI_FAST 8 8 16088416 8044208 SINGLE
HXD:WEL:UPI_SLOW 8 8 16088416 8044208 SINGLE
HXD:WEL:UPI_PIN 32 32 16088416 8044208 SINGLE
HXD:WEL:PIN_ID 4 4 8044208 8044208 SINGLE
HXD:WEL:UNITID 4 4 8044208 8044208 SINGLE
HXD:WEL:LENGTH_CHK 4 4 8044208 8044208 SINGLE
HXD:WEL:WELTIME 4 4 8044208 8044208 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 8044208 8044208 SINGLE
HXD:WEL:TRIG 4 4 8044208 8044208 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 8044208 8044208 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 8044208 8044208 SINGLE
HXD:WEL:PHA_FAST 4 4 8044208 8044208 SINGLE
HXD:WEL:PHA_SLOW 4 4 8044208 8044208 SINGLE
HXD:WEL:PHA_PIN 16 16 8044208 8044208 SINGLE
HXD:WEL:PACKET_AETIME 8 8 8044208 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 8044208 16086464 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 8044208 8044208 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 8044208 16088416 SINGLE
HXD:WEL:EVENT 204 204 16088416 16088416 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 16923 8042256 SINGLE
HXDpi:EHKDATA 136 136 16923 8042256 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 179.889 11.810 191.699 39.89
[ 2] HXDrndInit 2.485 4.749 7.234 1.51
[ 3] HXDgethkInit 1.748 4.562 6.310 1.31
[ 4] HXDpiFITS 5.658 4.263 9.921 2.06
[ 5] HXDpi 59.257 4.254 63.512 13.22
[ 6] HXD2ndeventFitsWrite 177.934 23.947 201.881 42.01
(others) 0.015 0.012 0.027 0.01
--------------------------------------------------------------------------
TOTAL 426.985 53.599 480.584 100.00
-> hxdpi successful for ae403025010hxd_0_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,"ae403025010hxd_0_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 8044209
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 8044208/8044209
[ 2] HXDleapsecInit version 2.0.1
| OK: 8044208/8044208
[ 3] HXDgradeFITS version 2.0.4
| OK: 8044208/8044208
[ 4] HXDgrade version 2.0.3
| OK: 8044208/8044208
[ 5] HXD2ndeventFitsWrite version 2.0.4
| OK: 8044208/8044208
GET: 8044208
*** 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 8044208 0 SINGLE
HXD:WEL:EV_TIME 8 8 8044208 8044208 SINGLE
HXD:WEL:MTI 4 4 8044208 8044208 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 16088416 8044208 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 16088416 8044208 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 16088416 8044208 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 16088416 8044208 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 16088416 8044208 SINGLE
HXD:WEL:GRADE_RESERV 4 4 16088416 8044208 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 16088416 8044208 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 16088416 8044208 SINGLE
HXD:WEL:DET_TYPE 4 4 16088416 8044208 SINGLE
HXD:WEL:PI_FAST 4 4 8044208 8044208 SINGLE
HXD:WEL:PI_SLOW 4 4 8044208 8044208 SINGLE
HXD:WEL:PI_PIN 16 16 8044208 8044208 SINGLE
HXD:WEL:UPI_FAST 8 8 8044208 8044208 SINGLE
HXD:WEL:UPI_SLOW 8 8 8044208 8044208 SINGLE
HXD:WEL:UPI_PIN 32 32 8044208 8044208 SINGLE
HXD:WEL:PIN_ID 4 4 16088416 8044208 SINGLE
HXD:WEL:UNITID 4 4 8044208 8044208 SINGLE
HXD:WEL:LENGTH_CHK 4 4 8044208 8044208 SINGLE
HXD:WEL:WELTIME 4 4 8044208 8044208 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 8044208 8044208 SINGLE
HXD:WEL:TRIG 4 4 8044208 8044208 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 8044208 8044208 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 8044208 8044208 SINGLE
HXD:WEL:PHA_FAST 4 4 8044208 8044208 SINGLE
HXD:WEL:PHA_SLOW 4 4 8044208 8044208 SINGLE
HXD:WEL:PHA_PIN 16 16 8044208 8044208 SINGLE
HXD:WEL:PACKET_AETIME 8 8 8044208 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 8044208 8044208 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 8044208 8044208 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 8044208 8044208 SINGLE
HXD:WEL:EVENT 204 204 8044208 8044208 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 178.412 6.075 184.487 44.23
[ 2] HXDleapsecInit 2.407 4.657 7.064 1.69
[ 3] HXDgradeFITS 1.751 4.192 5.943 1.42
[ 4] HXDgrade 17.253 4.133 21.387 5.13
[ 5] HXD2ndeventFitsWrite 172.574 25.651 198.225 47.52
(others) 0.017 0.007 0.024 0.01
--------------------------------------------------------------------------
TOTAL 372.413 44.716 417.130 100.00
-> hxdgrade successful for ae403025010hxd_0_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,"ae403025010hxd_0_proc.hk",,,"HXD scl fits file name ?" hklist_name,f,a,"ae403025010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae403025010.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 'ae403025010.tim[TIME_PACKETS_SEL]' ...
ntpk=14
aste_ti2time: reading 'ae403025010.tim[DP_TIMC]' ...
ndpk=54582, t=267096909.576 - 267507771.520
aste_ti2time: reading 'ae403025010.tim[DP_DHU_AVG]' ...
1: t0=267098485,N0=2287599616,Y=40718897/38969544,f=16777218.623,j=1,d=0
2: t0=267160405,N0=2541223936,Y=38969544/38844791,f=16777218.354,j=0,d=0
3: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=0,d=0
4: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
5: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
6: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
7: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
8: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
9: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
10: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
11: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
12: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
13: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
14: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae403025010hxd_0.hk'
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 68277
QUIT: 1 |
<--- [ 1] HXDsclFitsRead version 0.4.7
| OK: 68276/68277
[ 2] HXDgethkInit version 0.1.0
| OK: 68276/68276
[ 3] HXDleapsecInit version 2.0.1
| OK: 68276/68276
[ 4] HXDfsclTimeFITS version 0.3.6
| OK: 68276/68276
[ 5] HXDfsclTime version 0.3.8
| OK: 68276/68276
[ 6] HXD2ndsclFitsWrite version 0.2.1
| OK: 68276/68276
GET: 68276
*** 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 68276 0 SINGLE
HXD:SCL:PACKET_S_TIME 8 8 68276 136544 SINGLE
HXD:SCL:PACKET_SEC_HEADER 4 4 68276 68268 SINGLE
HXD:SCL:EV_TIME 8 8 68276 68276 SINGLE
HXD:SCL:TIME 4 4 68276 68268 SINGLE
HXD:SCL:BOARD 4 4 68276 68268 SINGLE
HXDsclFitsRead:IROW 4 4 68276 68276 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 85350 136552 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 8533 8533 SINGLE
HXDfsclTime:HXD_AE_TM_LATCH_TM 4 4 8533 8533 SINGLE
HXDfsclTime:HXD_SYS_TIME 8 8 8533 0 SINGLE
HXDfsclTime:HXD_HK_TIME 8 8 8533 0 SINGLE
HXDfsclTime:HXD_WPU_CLK_RATE 4 4 8533 8533 SINGLE
HXDfsclTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfsclTime:TIME_INVALID 4 4 68276 0 SINGLE
HXDfsclTime:EV_TIME_TLM 8 8 68268 0 SINGLE
HXDfsclTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDsclFitsRead 0.278 0.076 0.354 34.77
[ 2] HXDgethkInit 0.022 0.031 0.053 5.21
[ 3] HXDleapsecInit 0.022 0.035 0.057 5.60
[ 4] HXDfsclTimeFITS 0.065 0.062 0.127 12.48
[ 5] HXDfsclTime 0.265 0.042 0.307 30.16
[ 6] HXD2ndsclFitsWrite 0.070 0.030 0.100 9.82
(others) 0.012 0.008 0.020 1.96
--------------------------------------------------------------------------
TOTAL 0.734 0.284 1.018 100.00
-> hxdscltime successful for ae403025010hxd_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,"ae403025010hxd_0_wam.fff",,,"HXD wam fits file name ?" create_name,f,a,"hxdwamtime_out.evt",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae403025010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae403025010.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 'ae403025010.tim[TIME_PACKETS_SEL]' ...
ntpk=14
aste_ti2time: reading 'ae403025010.tim[DP_TIMC]' ...
ndpk=54582, t=267096909.576 - 267507771.520
aste_ti2time: reading 'ae403025010.tim[DP_DHU_AVG]' ...
1: t0=267098485,N0=2287599616,Y=40718897/38969544,f=16777218.623,j=1,d=0
2: t0=267160405,N0=2541223936,Y=38969544/38844791,f=16777218.354,j=0,d=0
3: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=0,d=0
4: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
5: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
6: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
7: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
8: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
9: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
10: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
11: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
12: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
13: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
14: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae403025010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae403025010hxd_0.hk'
Event... 100001 (100000)
Event... 200001 (200000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 249113
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 249112/249113
[ 2] HXDgethkInit version 0.1.0
| OK: 249112/249112
[ 3] HXDleapsecInit version 2.0.1
| OK: 249112/249112
[ 4] HXDftrnTimeFITS version 0.3.3
| OK: 249112/249112
[ 5] HXDftrnTime version 0.3.3
| OK: 249112/249112
[ 6] HXD2ndtrnFitsWrite version 0.3.1
| OK: 249112/249112
GET: 249112
*** 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 498224 249112 SINGLE
HXD:TRN:PACKET_AETIME 8 8 249112 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 249112 747240 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 249112 498176 SINGLE
HXD:TRB:IBLOCK 4 4 249112 498176 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 249112 249112 SINGLE
HXD:TRN:BOARD 4 4 249112 498176 SINGLE
HXD:TRN:BLOCK 4 4 249112 498176 SINGLE
HXD:TRN:RDBIN 4 4 249112 249112 SINGLE
HXD:TRN:TBLID 4 4 249112 249112 SINGLE
HXD:TRN:DATA_SIZE 4 4 249112 249112 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 249112 249112 SINGLE
HXD:TRH:BLOCK 4 4 249112 249112 SINGLE
HXD:TRH:TIME 4 4 249112 498176 SINGLE
HXD:TRH:GB_TIME 4 4 249112 249112 SINGLE
HXD:TRH:GB_FLG 4 4 249112 249112 SINGLE
HXD:TRH:TIME_MODE 4 4 249112 498176 SINGLE
HXD:TRH:RBM 4 4 249112 249112 SINGLE
HXD:TRH:GB_FRZ 4 4 249112 249112 SINGLE
HXD:TRH:DT_MODE 4 4 249112 249112 SINGLE
HXD:TRH:SUMLD_MODE 4 4 249112 249112 SINGLE
HXD:TRH:BOARD 4 4 249112 249112 SINGLE
HXD:TRH:GB_TRG 4 4 249112 249112 SINGLE
HXD:TRB:PI 216 216 249112 249112 SINGLE
HXD:TRB:PH 216 216 249112 249112 SINGLE
HXD:TRB:OVER_FLOW 4 4 249112 249112 SINGLE
HXD:TRB:PSEUDO 4 4 249112 249112 SINGLE
HXD:TRB:TRN_ANT 20 20 249112 249112 SINGLE
HXD:TRB:UD 4 4 249112 249112 SINGLE
HXD:TRB:DEAD_TIME 4 4 249112 249112 SINGLE
HXD:TRB:SUM_LD 4 4 249112 249112 SINGLE
HXD:TRB:WELL_ANT 16 16 249112 249112 SINGLE
HXD:TRN:TRN_QUALITY 4 4 249112 249112 SINGLE
HXDtrnFitsRead:IROW 4 4 249112 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 266226 747336 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 8533 8533 SINGLE
HXDftrnTime:HXD_AE_TM_LATCH_TM 4 4 8533 8533 SINGLE
HXDftrnTime:HXD_SYS_TIME 8 8 8533 0 SINGLE
HXDftrnTime:HXD_HK_TIME 8 8 8533 0 SINGLE
HXDftrnTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDftrnTime:TIME_INVALID 4 4 249112 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 5.790 0.805 6.595 42.82
[ 2] HXDgethkInit 0.086 0.149 0.235 1.53
[ 3] HXDleapsecInit 0.054 0.128 0.182 1.18
[ 4] HXDftrnTimeFITS 0.159 0.160 0.319 2.07
[ 5] HXDftrnTime 0.793 0.150 0.943 6.12
[ 6] HXD2ndtrnFitsWrite 5.676 1.429 7.105 46.13
(others) 0.013 0.010 0.023 0.15
--------------------------------------------------------------------------
TOTAL 12.571 2.831 15.402 100.00
-> hxdwamtime successful for ae403025010hxd_0_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,"ae403025010hxd_0_wam.sff",,,"HXD trn fits file name ?" trn_fitlog_name,f,a,"wamfit.log",,,"HXD trn fitlog file name" trn_gainhist_name,f,a,"ae403025010hxd_0_wam.ghf",,,"HXD WAM gainhistory fits file name" gainhistory_iomode,b,h,n,,,"Add result to gainhistory : yes or no ?" leapfile,f,a,"CALDB",,,"leapsec file name" num_event,i,h,-1,,,"number of event (-1=all,0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min,2:norm,5:max)" mode,s,h,"hl",,,""-> stdout output from hxdmkwamgainhist
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDleapsecInit version 2.0.1
HXDmktrngainhist version 0.1.2
-- Functions by HXD team --
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdtrnFitsToBnkUtil version 0.2.1
hxdFitsHeaderUtil version 2.0.3
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDleapsecInit version 2.0.1
[ 3] HXDmktrngainhist version 0.1.2
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
atMissionTime: reading leapsec file '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/gen/bcf/leapsec_010905.fits' ...
01: 1972-01-01 00:00:00.000 +0.0 sec
02: 1972-07-01 00:00:00.000 +1.0 sec
03: 1973-01-01 00:00:00.000 +1.0 sec
04: 1974-01-01 00:00:00.000 +1.0 sec
05: 1975-01-01 00:00:00.000 +1.0 sec
06: 1976-01-01 00:00:00.000 +1.0 sec
07: 1977-01-01 00:00:00.000 +1.0 sec
08: 1978-01-01 00:00:00.000 +1.0 sec
09: 1979-01-01 00:00:00.000 +1.0 sec
10: 1980-01-01 00:00:00.000 +1.0 sec
11: 1981-07-01 00:00:00.000 +1.0 sec
12: 1982-07-01 00:00:00.000 +1.0 sec
13: 1983-07-01 00:00:00.000 +1.0 sec
14: 1985-07-01 00:00:00.000 +1.0 sec
15: 1988-01-01 00:00:00.000 +1.0 sec
16: 1990-01-01 00:00:00.000 +1.0 sec
17: 1991-01-01 00:00:00.000 +1.0 sec
18: 1992-07-01 00:00:00.000 +1.0 sec
19: 1993-07-01 00:00:00.000 +1.0 sec
20: 1994-07-01 00:00:00.000 +1.0 sec
21: 1996-01-01 00:00:00.000 +1.0 sec
22: 1997-07-01 00:00:00.000 +1.0 sec
23: 1999-01-01 00:00:00.000 +1.0 sec
24: 2006-01-01 00:00:00.000 +1.0 sec
atMissionTime: 24 lines were read
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 249113
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 249112/249113
[ 2] HXDleapsecInit version 2.0.1
| OK: 249112/249112
[ 3] HXDmktrngainhist version 0.1.2
| OK: 249112/249112
GET: 249112
*** 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 249112 249112 SINGLE
HXD:TRN:PACKET_AETIME 8 8 249112 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 249112 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 249112 0 SINGLE
HXD:TRB:IBLOCK 4 4 249112 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 249112 0 SINGLE
HXD:TRN:BOARD 4 4 249112 0 SINGLE
HXD:TRN:BLOCK 4 4 249112 0 SINGLE
HXD:TRN:RDBIN 4 4 249112 0 SINGLE
HXD:TRN:TBLID 4 4 249112 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 249112 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 249112 0 SINGLE
HXD:TRH:BLOCK 4 4 249112 0 SINGLE
HXD:TRH:TIME 4 4 249112 0 SINGLE
HXD:TRH:GB_TIME 4 4 249112 0 SINGLE
HXD:TRH:GB_FLG 4 4 249112 0 SINGLE
HXD:TRH:TIME_MODE 4 4 249112 0 SINGLE
HXD:TRH:RBM 4 4 249112 0 SINGLE
HXD:TRH:GB_FRZ 4 4 249112 0 SINGLE
HXD:TRH:DT_MODE 4 4 249112 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 249112 0 SINGLE
HXD:TRH:BOARD 4 4 249112 0 SINGLE
HXD:TRH:GB_TRG 4 4 249112 0 SINGLE
HXD:TRB:PI 216 216 249112 0 SINGLE
HXD:TRB:PH 216 216 249112 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 249112 0 SINGLE
HXD:TRB:PSEUDO 4 4 249112 0 SINGLE
HXD:TRB:TRN_ANT 20 20 249112 0 SINGLE
HXD:TRB:UD 4 4 249112 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 249112 0 SINGLE
HXD:TRB:SUM_LD 4 4 249112 0 SINGLE
HXD:TRB:WELL_ANT 16 16 249112 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 249112 0 SINGLE
HXDtrnFitsRead:IROW 4 4 249112 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 249112 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 5.168 0.190 5.358 91.51
[ 2] HXDleapsecInit 0.072 0.153 0.225 3.84
[ 3] HXDmktrngainhist 0.103 0.145 0.248 4.23
(others) 0.016 0.008 0.024 0.41
--------------------------------------------------------------------------
TOTAL 5.359 0.496 5.855 100.00
-> hxdmkwamgainhist successful for ae403025010hxd_0_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,"ae403025010hxd_0_wam.sff",,,"HXD trn fits file name ?" create_name,f,h,"hxdwampi_out.evt",,,"HXD trn fits created file name ?" hklist_name,f,a,"ae403025010hxd_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,"ae403025010hxd_0_wam.ghf",,,"HXD TRN gain history fie name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwampi
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.1
HXDtrnFitsRead version 0.4.2
HXDgethkInit version 0.1.0
HXDrndInit version 0.2.0
HXDtrnpi version 2.0.0
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdtrnpiUtil version 0.0.4
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDtrnpi version 2.0.0
[ 4] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 249113
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 249112/249113
[ 2] HXDgethkInit version 0.1.0
| OK: 249112/249112
[ 3] HXDtrnpi version 2.0.0
| OK: 249112/249112
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 249112/249112
GET: 249112
*** 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 249112 498224 SINGLE
HXD:TRN:PACKET_AETIME 8 8 249112 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 249112 249112 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 249112 249112 SINGLE
HXD:TRB:IBLOCK 4 4 249112 249112 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 249112 249112 SINGLE
HXD:TRN:BOARD 4 4 249112 249112 SINGLE
HXD:TRN:BLOCK 4 4 249112 249112 SINGLE
HXD:TRN:RDBIN 4 4 249112 498224 SINGLE
HXD:TRN:TBLID 4 4 249112 249112 SINGLE
HXD:TRN:DATA_SIZE 4 4 249112 249112 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 249112 249112 SINGLE
HXD:TRH:BLOCK 4 4 249112 249112 SINGLE
HXD:TRH:TIME 4 4 249112 249112 SINGLE
HXD:TRH:GB_TIME 4 4 249112 249112 SINGLE
HXD:TRH:GB_FLG 4 4 249112 249112 SINGLE
HXD:TRH:TIME_MODE 4 4 249112 249112 SINGLE
HXD:TRH:RBM 4 4 249112 249112 SINGLE
HXD:TRH:GB_FRZ 4 4 249112 249112 SINGLE
HXD:TRH:DT_MODE 4 4 249112 249112 SINGLE
HXD:TRH:SUMLD_MODE 4 4 249112 249112 SINGLE
HXD:TRH:BOARD 4 4 249112 498224 SINGLE
HXD:TRH:GB_TRG 4 4 249112 249112 SINGLE
HXD:TRB:PI 216 216 498224 249112 SINGLE
HXD:TRB:PH 216 216 249112 498224 SINGLE
HXD:TRB:OVER_FLOW 4 4 249112 249112 SINGLE
HXD:TRB:PSEUDO 4 4 249112 249112 SINGLE
HXD:TRB:TRN_ANT 20 20 249112 249112 SINGLE
HXD:TRB:UD 4 4 249112 249112 SINGLE
HXD:TRB:DEAD_TIME 4 4 249112 249112 SINGLE
HXD:TRB:SUM_LD 4 4 249112 249112 SINGLE
HXD:TRB:WELL_ANT 16 16 249112 249112 SINGLE
HXD:TRN:TRN_QUALITY 4 4 249112 249112 SINGLE
HXDtrnFitsRead:IROW 4 4 249112 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 249112 249112 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 5.667 0.608 6.275 45.56
[ 2] HXDgethkInit 0.099 0.125 0.224 1.63
[ 3] HXDtrnpi 0.262 0.097 0.359 2.61
[ 4] HXD2ndtrnFitsWrite 5.695 1.197 6.892 50.04
(others) 0.015 0.007 0.022 0.16
--------------------------------------------------------------------------
TOTAL 11.738 2.034 13.772 100.00
-> hxdwampi successful for ae403025010hxd_0_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,"ae403025010hxd_0_wam.sff",,,"HXD trn fits file name ?" create_name,f,h,"hxdwamgrade_out.evt",,,"HXD trn fits created file name ?" hklist_name,f,a,"ae403025010hxd_0.hk",,,"HXD (none).hk fits file name ?" rand_seed,i,h,7,,,"Random number seed" rand_skip,i,h,0,,,"Random number skip" num_event,i,h,-1,,,"number of event (-1=all, 0=exit)" event_freq,i,h,100000,,,"Event number printout frequency" anl_verbose,i,h,-1,,,"ANL verbose level (-1:full, 0:minimum)" anl_profile,b,h,yes,,,"Enable ANL module profiling" chatter,i,h,2,,,"message chatter level (0:min, 2:norm, 5:max)" mode,s,h,"hl",,,""-> stdout output from hxdwamgrade
-- Framework for Suzaku --
aste_anl version 1.81
astetool version 1.85
com_cli version 2.06
atFunctions version 3.0
cern version v2002-dummy2
cfitsio version 3.060
-- Common functions in Suzaku --
headas_body version 1.81
aetimeUtil version 2.2
aste_gethk version 2.5
aste_ti2time version 4.0
aste_caldb version 1.3
-- ANL Modules by HXD team --
include version 4.0.0
HXDtrnFitsRead version 0.4.2
HXDrndInit version 0.2.0
HXDgethkInit version 0.1.0
HXDtrngrade version 0.1.0
HXD2ndtrnFitsWrite version 2.0.0
-- Functions by HXD team --
hxdtrngradeUtil version 0.0.2
hxdtrnFitsUtil version 0.2.4
hxdgtiFitsUtil version 2.0.0
hxdFitsCommentUtil version 0.0.7
hxdFitsHeaderUtil version 2.0.3
hxdtrnFitsToBnkUtil version 0.2.1
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
[ 1] HXDtrnFitsRead version 0.4.2
[ 2] HXDgethkInit version 0.1.0
[ 3] HXDtrngrade version 0.1.0
[ 4] HXD2ndtrnFitsWrite version 0.3.1
HBOOK_BUF_SIZE = 2200000
BNK_BUF_SIZE = 120000
VERBOSE_LEVEL = -1
PROFILE_MODULE = YES
CHATTER = 2
Event... 1 (0)
Event... 100001 (100000)
Event... 200001 (200000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 249113
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 249112/249113
[ 2] HXDgethkInit version 0.1.0
| OK: 249112/249112
[ 3] HXDtrngrade version 0.1.0
| OK: 249112/249112
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 249112/249112
GET: 249112
*** 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 249112 249112 SINGLE
HXD:TRN:PACKET_AETIME 8 8 249112 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 249112 249112 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 249112 249112 SINGLE
HXD:TRB:IBLOCK 4 4 249112 249112 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 249112 249112 SINGLE
HXD:TRN:BOARD 4 4 249112 249112 SINGLE
HXD:TRN:BLOCK 4 4 249112 249112 SINGLE
HXD:TRN:RDBIN 4 4 249112 249112 SINGLE
HXD:TRN:TBLID 4 4 249112 249112 SINGLE
HXD:TRN:DATA_SIZE 4 4 249112 249112 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 249112 249112 SINGLE
HXD:TRH:BLOCK 4 4 249112 249112 SINGLE
HXD:TRH:TIME 4 4 249112 249112 SINGLE
HXD:TRH:GB_TIME 4 4 249112 249112 SINGLE
HXD:TRH:GB_FLG 4 4 249112 249112 SINGLE
HXD:TRH:TIME_MODE 4 4 249112 249112 SINGLE
HXD:TRH:RBM 4 4 249112 249112 SINGLE
HXD:TRH:GB_FRZ 4 4 249112 249112 SINGLE
HXD:TRH:DT_MODE 4 4 249112 249112 SINGLE
HXD:TRH:SUMLD_MODE 4 4 249112 249112 SINGLE
HXD:TRH:BOARD 4 4 249112 249112 SINGLE
HXD:TRH:GB_TRG 4 4 249112 249112 SINGLE
HXD:TRB:PI 216 216 249112 249112 SINGLE
HXD:TRB:PH 216 216 249112 249112 SINGLE
HXD:TRB:OVER_FLOW 4 4 249112 249112 SINGLE
HXD:TRB:PSEUDO 4 4 249112 249112 SINGLE
HXD:TRB:TRN_ANT 20 20 249112 249112 SINGLE
HXD:TRB:UD 4 4 249112 249112 SINGLE
HXD:TRB:DEAD_TIME 4 4 249112 249112 SINGLE
HXD:TRB:SUM_LD 4 4 249112 249112 SINGLE
HXD:TRB:WELL_ANT 16 16 249112 249112 SINGLE
HXD:TRN:TRN_QUALITY 4 4 498224 249112 SINGLE
HXDtrnFitsRead:IROW 4 4 249112 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 249112 249112 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 5.531 0.535 6.066 44.59
[ 2] HXDgethkInit 0.073 0.152 0.225 1.65
[ 3] HXDtrngrade 0.097 0.152 0.249 1.83
[ 4] HXD2ndtrnFitsWrite 5.815 1.227 7.042 51.77
(others) 0.014 0.007 0.021 0.15
--------------------------------------------------------------------------
TOTAL 11.530 2.073 13.603 100.00
-> hxdwamgrade successful for ae403025010hxd_0_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,"ae403025010hxd_0_wam.sff",,,"HXD wam fits file name ?" create_name,f,h,"none",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae403025010hxd_0.hk",,,"HXD HK fits file list name ?" create_bstidt_name,f,a,"ae403025010hxd_0_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 249113
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 249112/249113
[ 2] HXDleapsecInit version 2.0.1
| OK: 249112/249112
[ 3] HXDgethkInit version 0.1.0
| OK: 249112/249112
[ 4] HXDwambstid version 0.0.2
| OK: 249112/249112
GET: 249112
*** 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 249112 0 SINGLE
HXD:TRN:PACKET_AETIME 8 8 249112 249064 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 249112 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 249112 249064 SINGLE
HXD:TRB:IBLOCK 4 4 249112 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 249112 0 SINGLE
HXD:TRN:BOARD 4 4 249112 0 SINGLE
HXD:TRN:BLOCK 4 4 249112 0 SINGLE
HXD:TRN:RDBIN 4 4 249112 0 SINGLE
HXD:TRN:TBLID 4 4 249112 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 249112 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 249112 0 SINGLE
HXD:TRH:BLOCK 4 4 249112 0 SINGLE
HXD:TRH:TIME 4 4 249112 0 SINGLE
HXD:TRH:GB_TIME 4 4 249112 0 SINGLE
HXD:TRH:GB_FLG 4 4 249112 0 SINGLE
HXD:TRH:TIME_MODE 4 4 249112 249064 SINGLE
HXD:TRH:RBM 4 4 249112 0 SINGLE
HXD:TRH:GB_FRZ 4 4 249112 249064 SINGLE
HXD:TRH:DT_MODE 4 4 249112 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 249112 0 SINGLE
HXD:TRH:BOARD 4 4 249112 249064 SINGLE
HXD:TRH:GB_TRG 4 4 249112 0 SINGLE
HXD:TRB:PI 216 216 249112 0 SINGLE
HXD:TRB:PH 216 216 249112 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 249112 0 SINGLE
HXD:TRB:PSEUDO 4 4 249112 0 SINGLE
HXD:TRB:TRN_ANT 20 20 249112 0 SINGLE
HXD:TRB:UD 4 4 249112 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 249112 0 SINGLE
HXD:TRB:SUM_LD 4 4 249112 0 SINGLE
HXD:TRB:WELL_ANT 16 16 249112 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 249112 0 SINGLE
HXDtrnFitsRead:IROW 4 4 249112 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 249112 249112 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 5.128 0.198 5.326 86.58
[ 2] HXDleapsecInit 0.094 0.173 0.267 4.34
[ 3] HXDgethkInit 0.047 0.179 0.226 3.67
[ 4] HXDwambstid 0.192 0.119 0.311 5.05
(others) 0.012 0.010 0.022 0.36
--------------------------------------------------------------------------
TOTAL 5.473 0.679 6.152 100.00
-> hxdwambstid successful for ae403025010hxd_0_wam.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 ae403025010xi0_0_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae403025010xi0_0_3x3n066.fff.infile,f,a,"ae403025010xi0_0_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,"ae403025010.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 ae403025010xi0_0_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi0_0_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae403025010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae403025010.tim[TIME_PACKETS_SEL]' ...
ntpk=14
aste_ti2time: reading 'ae403025010.tim[DP_TIMC]' ...
ndpk=54582, t=267096909.576 - 267507771.520
aste_ti2time: reading 'ae403025010.tim[DP_DHU_AVG]' ...
1: t0=267098485,N0=2287599616,Y=40718897/38969544,f=16777218.623,j=1,d=0
2: t0=267160405,N0=2541223936,Y=38969544/38844791,f=16777218.354,j=0,d=0
3: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=0,d=0
4: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
5: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
6: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
7: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
8: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
9: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
10: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
11: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
12: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
13: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
14: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 376192 events )
... 10% ( 37619 / 376192 events )
... 20% ( 75238 / 376192 events )
Event... 100001 (100000)
... 30% ( 112857 / 376192 events )
... 40% ( 150476 / 376192 events )
... 50% ( 188095 / 376192 events )
Event... 200001 (200000)
... 60% ( 225714 / 376192 events )
... 70% ( 263333 / 376192 events )
Event... 300001 (300000)
... 80% ( 300952 / 376192 events )
... 90% ( 338571 / 376192 events )
... 100% ( 376192 / 376192 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267272652.939739 / time start
TSTOP = 267326588.932183 / time stop
TELAPASE = 53935.992444 / elapsed time = TSTOP - TSTART
ONTIME = 48879.993189 / on time = sum of all GTIs
LIVETIME = 48879.993189 / on-source time corrected for CCD exposure
EXPOSURE = 48879.993189 / exposure time
xisEventFitsUtil: rename ./filebo5juU-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 376194
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 376193/376194
[ 2] XISreadExp version 1.6
| OK: 376193/376193
[ 3] XISreadEvent version 2.7
| OK: 376192/376193 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 376192/376192
[ 5] XISeditEventFits version 2.1
| OK: 376192/376192
GET: 376192
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
376193 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
376193 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
376193 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
376192 : XIStime:ENTRY
376192 : XIStime:OK
1 : XISeditEventFits:BEGIN
376192 : XISeditEventFits:ENTRY
376192 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4272
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 376192 376192 SINGLE
XIS:RAWX 4 4 376192 376192 SINGLE
XIS:RAWY 4 4 376192 376192 SINGLE
XIS:ACTX 4 4 376192 376192 SINGLE
XIS:ACTY 4 4 376192 376192 SINGLE
XIS:DETX 4 4 376192 376192 SINGLE
XIS:DETY 4 4 376192 376192 SINGLE
XIS:FOCX 4 4 376192 376192 SINGLE
XIS:FOCY 4 4 376192 376192 SINGLE
XIS:X 4 4 376192 376192 SINGLE
XIS:Y 4 4 376192 376192 SINGLE
XIS:STATUS 4 4 376192 376192 SINGLE
XIS:PHAS 36 36 376192 376192 SINGLE
XIS:PHANOCTI 4 4 376192 376192 SINGLE
XIS:PHA 4 4 376192 376192 SINGLE
XIS:PI 4 4 376192 376192 SINGLE
XIS:GRADE 4 4 376192 376192 SINGLE
XIS:P_OUTER_MOST 4 4 376192 376192 SINGLE
XIS:SUM_OUTER_MOST 4 4 376192 376192 SINGLE
XIS:AEDATE 4 4 752384 376192 FAMILY
XIS:EXPTIME 4 4 376192 752384 FAMILY
XIS:EXPTIME_AETIME 8 8 752384 376192 SINGLE
XIS:S_TIME 8 8 376192 752384 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 376192 752384 FAMILY
XIS:EVENT_SEQ_NO 4 4 376192 376192 SINGLE
XIS:TIME 8 8 752384 376192 SINGLE
XIS:EXP_CENT_AETIME 8 8 752384 376192 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 376194 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 0.261 0.224 0.485 3.38
[ 2] XISreadExp 0.091 0.221 0.312 2.17
[ 3] XISreadEvent 6.265 0.393 6.658 46.42
[ 4] XIStime 0.774 0.221 0.995 6.94
[ 5] XISeditEventFits 5.416 0.462 5.878 40.98
(others) 0.011 0.005 0.016 0.11
--------------------------------------------------------------------------
TOTAL 12.818 1.526 14.344 100.00
-> xistime successful on ae403025010xi0_0_3x3n066.sff.infile,f,a,"ae403025010xi0_0_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,"ae403025010.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 ae403025010xi0_0_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi0_0_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae403025010.att'
SKYREF (7.1951, 59.3013, 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 = 7.19510 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 779.73 / 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 = 59.30130 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 843.52 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 376192 events )
... 10% ( 37619 / 376192 events )
... 20% ( 75238 / 376192 events )
Event... 100001 (100000)
... 30% ( 112857 / 376192 events )
... 40% ( 150476 / 376192 events )
... 50% ( 188095 / 376192 events )
Event... 200001 (200000)
... 60% ( 225714 / 376192 events )
... 70% ( 263333 / 376192 events )
Event... 300001 (300000)
... 80% ( 300952 / 376192 events )
... 90% ( 338571 / 376192 events )
... 100% ( 376192 / 376192 events )
xisEventFitsUtil: rename ./filecgopWY-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 376194
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 376193/376194
[ 2] XISreadExp version 1.6
| OK: 376193/376193
[ 3] XISreadEvent version 2.7
| OK: 376192/376193 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 376192/376192
[ 5] XISeditEventFits version 2.1
| OK: 376192/376192
GET: 376192
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
376193 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
376193 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
376193 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
376192 : XIScoord:ENTRY
376192 : XIScoord:OK
1 : XISeditEventFits:BEGIN
376192 : XISeditEventFits:ENTRY
376192 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4272
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 376192 752384 SINGLE
XIS:RAWX 4 4 376192 752384 SINGLE
XIS:RAWY 4 4 376192 752384 SINGLE
XIS:ACTX 4 4 752384 376192 SINGLE
XIS:ACTY 4 4 752384 376192 SINGLE
XIS:DETX 4 4 752384 376192 SINGLE
XIS:DETY 4 4 752384 376192 SINGLE
XIS:FOCX 4 4 752384 376192 SINGLE
XIS:FOCY 4 4 752384 376192 SINGLE
XIS:X 4 4 752384 376192 SINGLE
XIS:Y 4 4 752384 376192 SINGLE
XIS:STATUS 4 4 376192 376192 SINGLE
XIS:PHAS 36 36 376192 376192 SINGLE
XIS:PHANOCTI 4 4 376192 376192 SINGLE
XIS:PHA 4 4 376192 376192 SINGLE
XIS:PI 4 4 376192 376192 SINGLE
XIS:GRADE 4 4 376192 376192 SINGLE
XIS:P_OUTER_MOST 4 4 376192 376192 SINGLE
XIS:SUM_OUTER_MOST 4 4 376192 376192 SINGLE
XIS:AEDATE 4 4 376192 376192 FAMILY
XIS:EXPTIME 4 4 376192 376192 FAMILY
XIS:EXPTIME_AETIME 8 8 376192 376192 SINGLE
XIS:S_TIME 8 8 376192 376192 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 376192 376192 FAMILY
XIS:EVENT_SEQ_NO 4 4 376192 376192 SINGLE
XIS:TIME 8 8 376192 752384 SINGLE
XIS:EXP_CENT_AETIME 8 8 376192 376192 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 376194 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 0.293 0.231 0.524 3.18
[ 2] XISreadExp 0.078 0.193 0.271 1.64
[ 3] XISreadEvent 6.147 0.314 6.461 39.22
[ 4] XIScoord 2.678 0.232 2.910 17.66
[ 5] XISeditEventFits 5.728 0.557 6.285 38.15
(others) 0.015 0.007 0.022 0.13
--------------------------------------------------------------------------
TOTAL 14.939 1.534 16.472 100.00
-> xiscoord successful on ae403025010xi0_0_3x3n066.sff.infile,f,a,"ae403025010xi0_0_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 ae403025010xi0_0_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi0_0_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 / 376192 events )
... 10% ( 37619 / 376192 events )
... 20% ( 75238 / 376192 events )
Event... 100001 (100000)
... 30% ( 112857 / 376192 events )
... 40% ( 150476 / 376192 events )
... 50% ( 188095 / 376192 events )
Event... 200001 (200000)
... 60% ( 225714 / 376192 events )
... 70% ( 263333 / 376192 events )
Event... 300001 (300000)
... 80% ( 300952 / 376192 events )
... 90% ( 338571 / 376192 events )
... 100% ( 376192 / 376192 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 5895 1.57
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 10230 2.72
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 3661 0.97
B8 256 1PIX_FROM_SEGBOUNDARY 2205 0.59
B9 512 SCI_3rd_TRAILING_ROW 4950 1.32
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 10669 2.84
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 5113 1.36
B16 65536 CALMASK 41608 11.06
B17 131072 SEGBOUNDARY 7818 2.08
B18 262144 SCI_2nd_TRAILING_ROW 5238 1.39
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 13997 3.72
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 46007 12.23
B29 536870912 SCI_TRAILING_ROW 42728 11.36
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 173 0.05
### 0 CLEAN_ZERO 210363 55.92
--------------------------------------------------------------
+++ 4294967295 SUM 410655 109.16
::: 524287 SAFE(B0-18) 275183 73.15
>>> 4294967295 TOTAL 376192 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileDVP3UU-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 376194
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 376193/376194
[ 2] XISreadExp version 1.6
| OK: 376193/376193
[ 3] XISreadEvent version 2.7
| OK: 376192/376193 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 376192/376192
[ 5] XISeditEventFits version 2.1
| OK: 376192/376192
GET: 376192
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
376193 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
376193 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
376193 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
376192 : XISputPixelQuality:ENTRY
376192 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
376192 : XISeditEventFits:ENTRY
376192 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4272
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 376192 376192 SINGLE
XIS:RAWX 4 4 376192 376192 SINGLE
XIS:RAWY 4 4 376192 752384 SINGLE
XIS:ACTX 4 4 376192 752384 SINGLE
XIS:ACTY 4 4 376192 752384 SINGLE
XIS:DETX 4 4 376192 376192 SINGLE
XIS:DETY 4 4 376192 376192 SINGLE
XIS:FOCX 4 4 376192 376192 SINGLE
XIS:FOCY 4 4 376192 376192 SINGLE
XIS:X 4 4 376192 376192 SINGLE
XIS:Y 4 4 376192 376192 SINGLE
XIS:STATUS 4 4 752384 376192 SINGLE
XIS:PHAS 36 36 376192 376192 SINGLE
XIS:PHANOCTI 4 4 376192 376192 SINGLE
XIS:PHA 4 4 376192 376192 SINGLE
XIS:PI 4 4 376192 376192 SINGLE
XIS:GRADE 4 4 376192 376192 SINGLE
XIS:P_OUTER_MOST 4 4 376192 376192 SINGLE
XIS:SUM_OUTER_MOST 4 4 376192 376192 SINGLE
XIS:AEDATE 4 4 376192 376192 FAMILY
XIS:EXPTIME 4 4 376192 376192 FAMILY
XIS:EXPTIME_AETIME 8 8 376192 376192 SINGLE
XIS:S_TIME 8 8 376192 376192 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 376192 376192 FAMILY
XIS:EVENT_SEQ_NO 4 4 376192 376192 SINGLE
XIS:TIME 8 8 376192 752384 SINGLE
XIS:EXP_CENT_AETIME 8 8 376192 376192 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 376194 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.238 0.211 0.449 3.20
[ 2] XISreadExp 0.081 0.193 0.274 1.95
[ 3] XISreadEvent 5.945 0.265 6.210 44.31
[ 4] XISputPixelQuality 0.481 0.225 0.706 5.04
[ 5] XISeditEventFits 5.679 0.680 6.359 45.38
(others) 0.009 0.007 0.016 0.11
--------------------------------------------------------------------------
TOTAL 12.433 1.581 14.014 100.00
-> xisputpixelquality successful on ae403025010xi0_0_3x3n066.sff.infile,f,a,"ae403025010xi0_0_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,"ae403025010xi0_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 ae403025010xi0_0_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi0_0_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 96-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 'ae403025010xi0_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 ae403025010xi0_0.hk, S0_VDCHK18_CAL, nrows=2136
nvalid=2096 nrej=40 time=267272655.4 - 267334929.4 [s]
AE-temp: average=19.515 sigma=1.686 min=16.743 max=23.520 [degC]
Event... 1 (0)
... 0% ( 0 / 376192 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 10% ( 37619 / 376192 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 20% ( 75238 / 376192 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 30% ( 112857 / 376192 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 40% ( 150476 / 376192 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 188095 / 376192 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 225714 / 376192 events )
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 263333 / 376192 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 300952 / 376192 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 338571 / 376192 events )
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 376192 / 376192 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filebx0ckT-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 376194
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 376193/376194
[ 2] XISreadExp version 1.6
| OK: 376193/376193
[ 3] XISreadEvent version 2.7
| OK: 376192/376193 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 376192/376192
[ 5] XIStrailCorrection version 3.1
| OK: 376192/376192
[ 6] XISctiCorrection version 3.4
| OK: 376192/376192
[ 7] XISgrade version 3.3
| OK: 376192/376192
[ 8] XISpha2pi version 3.2
| OK: 376192/376192
[ 9] XISeditEventFits version 2.1
| OK: 376192/376192
GET: 376192
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
376193 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
376193 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
376193 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
376192 : XISpreparePHASCORR:ENTRY
376192 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
376192 : XIStrailCorrection:ENTRY
376192 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
376192 : XISctiCorrection:ENTRY
376192 : XISctiCorrection:OK
1 : XISgrade:BEGIN
376192 : XISgrade:ENTRY
376192 : XISgrade:OK
1 : XISpha2pi:BEGIN
376192 : XISpha2pi:ENTRY
376192 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
376192 : XISeditEventFits:ENTRY
376192 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4464
------------------------------------------------------------------------------
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 1504774 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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 376192 1880960 SINGLE
XIS:RAWX 4 4 376192 1128576 SINGLE
XIS:RAWY 4 4 376192 752384 SINGLE
XIS:ACTX 4 4 376192 376192 SINGLE
XIS:ACTY 4 4 376192 1128576 SINGLE
XIS:DETX 4 4 376192 376192 SINGLE
XIS:DETY 4 4 376192 376192 SINGLE
XIS:FOCX 4 4 376192 376192 SINGLE
XIS:FOCY 4 4 376192 376192 SINGLE
XIS:X 4 4 376192 376192 SINGLE
XIS:Y 4 4 376192 376192 SINGLE
XIS:STATUS 4 4 376192 376192 SINGLE
XIS:PHAS 36 36 376192 752384 SINGLE
XIS:PHANOCTI 4 4 752384 376192 SINGLE
XIS:PHA 4 4 752384 376192 SINGLE
XIS:PI 4 4 752384 376192 SINGLE
XIS:GRADE 4 4 752384 376192 SINGLE
XIS:P_OUTER_MOST 4 4 376192 752384 SINGLE
XIS:SUM_OUTER_MOST 4 4 376192 752384 SINGLE
XIS:AEDATE 4 4 376192 376192 FAMILY
XIS:EXPTIME 4 4 376192 376192 FAMILY
XIS:EXPTIME_AETIME 8 8 376192 376192 SINGLE
XIS:S_TIME 8 8 376192 376192 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 376192 376192 FAMILY
XIS:EVENT_SEQ_NO 4 4 376192 376192 SINGLE
XIS:TIME 8 8 376192 1880960 SINGLE
XIS:EXP_CENT_AETIME 8 8 376192 376192 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 376194 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 752384 376192 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 376192 376192 SINGLE
XIS:PHASCORR 72 72 1128576 1128576 SINGLE
XIS:PHA:DOUBLE 8 8 376192 376192 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 0.336 0.195 0.531 1.44
[ 2] XISreadExp 0.091 0.184 0.275 0.75
[ 3] XISreadEvent 6.402 0.307 6.709 18.23
[ 4] XISpreparePHASCORR 0.329 0.189 0.518 1.41
[ 5] XIStrailCorrection 0.770 0.212 0.982 2.67
[ 6] XISctiCorrection 13.427 5.646 19.073 51.81
[ 7] XISgrade 1.250 0.197 1.447 3.93
[ 8] XISpha2pi 0.781 0.175 0.956 2.60
[ 9] XISeditEventFits 5.820 0.472 6.292 17.09
(others) 0.019 0.009 0.028 0.08
--------------------------------------------------------------------------
TOTAL 29.225 7.586 36.810 100.00
-> xispi successful on ae403025010xi0_0_3x3n066.sff.infile,f,a,"ae403025010xi0_0_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae403025010xi0_0_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 ae403025010xi0_0_3x3n066.sff
OUTFILE ae403025010xi0_0_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae403025010xi0_0_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 / 376192 events )
frame time jump, t=267273644.940 - 267274716.939 by 1072.000 s
frame time jump, t=267274860.939 - 267275124.939 by 264.000 s
... 10% ( 37619 / 376192 events )
frame time jump, t=267279812.939 - 267280460.939 by 648.000 s
frame time jump, t=267280604.939 - 267280868.939 by 264.000 s
... 20% ( 75238 / 376192 events )
... 30% ( 112857 / 376192 events )
... 40% ( 150476 / 376192 events )
... 50% ( 188095 / 376192 events )
... 60% ( 225714 / 376192 events )
... 70% ( 263333 / 376192 events )
... 80% ( 300952 / 376192 events )
frame time jump, t=267317652.933 - 267318636.933 by 984.000 s
frame time jump, t=267318780.933 - 267319044.933 by 264.000 s
... 90% ( 338571 / 376192 events )
frame time jump, t=267323460.933 - 267324756.932 by 1296.000 s
frame time jump, t=267324900.932 - 267325164.932 by 264.000 s
... 100% ( 376192 / 376192 events )
XIScheckEventNo: GTI file 'ae403025010xi0_0_3x3n066.gti' created
N_FRAMES = 6110 / number of frames in the input event file
N_TESTED = 6110 / number of non-zero frames tested
N_PASSED = 6110 / number of frames passed the test
N_T_JUMP = 8 / number of frames detected time jump
N_SATURA = 0 / number of frames telemetry saturated
T_TESTED = 48880.000000 / exposure of non-zero frames tested
T_PASSED = 48880.000000 / exposure of frames passed the test
T_T_JUMP = 5055.999255 / loss of exposure due to time jump
T_SATURA = 0.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 6111
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 6110/6111
[ 2] XISreadExp version 1.6
| OK: 6110/6110
[ 3] XISreadEvent version 2.7 <------- LOOP: 376192
| OK: 376192/382302 -------> SKIP: 6110
[ 4] XIScheckEventNo version 1.2
| OK: 376192/376192
GET: 376192
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
6110 : XISreadFrame:ENTRY
6110 : XISreadFrame:OK
1 : XISreadExp:BEGIN
6110 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
382302 : XISreadEvent:ENTRY
382301 : XISreadEvent:OK
6110 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
376192 : XIScheckEventNo:ENTRY
376192 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6384
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 6110 382302 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 6110 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 6110 382302 SINGLE
XIS:FRAMES:S_TIME 8 8 6110 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 6110 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 6110 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 6110 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 6110 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 6110 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 6110 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 6110 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 6110 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 6110 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 6110 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 6110 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 6110 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 6110 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 6110 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 6110 6110 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 6110 0 SINGLE
XIS:FRAMES:BIAS 16 16 6110 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 6110 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 6110 0 SINGLE
XIS:FRAMES:AEDATE 4 4 6110 382302 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 6110 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 6110 376192 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 6110 6110 SINGLE
XIS:FRAMES:TIME 8 8 6110 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 376192 376192 SINGLE
XIS:RAWX 4 4 376192 0 SINGLE
XIS:RAWY 4 4 376192 0 SINGLE
XIS:ACTX 4 4 376192 0 SINGLE
XIS:ACTY 4 4 376192 0 SINGLE
XIS:DETX 4 4 376192 0 SINGLE
XIS:DETY 4 4 376192 0 SINGLE
XIS:FOCX 4 4 376192 0 SINGLE
XIS:FOCY 4 4 376192 0 SINGLE
XIS:X 4 4 376192 0 SINGLE
XIS:Y 4 4 376192 0 SINGLE
XIS:STATUS 4 4 376192 0 SINGLE
XIS:PHAS 36 36 376192 0 SINGLE
XIS:PHANOCTI 4 4 376192 0 SINGLE
XIS:PHA 4 4 376192 0 SINGLE
XIS:PI 4 4 376192 0 SINGLE
XIS:GRADE 4 4 376192 0 SINGLE
XIS:P_OUTER_MOST 4 4 376192 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 376192 0 SINGLE
XIS:AEDATE 4 4 376192 382301 FAMILY
XIS:EXPTIME 4 4 376192 382301 FAMILY
XIS:EXPTIME_AETIME 8 8 376192 0 SINGLE
XIS:S_TIME 8 8 376192 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 376192 382301 FAMILY
XIS:EVENT_SEQ_NO 4 4 376192 382301 SINGLE
XIS:TIME 8 8 376192 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 376192 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 1.426 0.011 1.437 14.03
[ 2] XISreadExp 0.005 0.008 0.013 0.13
[ 3] XISreadEvent 8.112 0.277 8.389 81.94
[ 4] XIScheckEventNo 0.192 0.188 0.380 3.71
(others) 0.014 0.005 0.019 0.19
--------------------------------------------------------------------------
TOTAL 9.749 0.489 10.237 100.00
-> xisgtigen successful on ae403025010xi0_0_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 ae403025010xi0_0_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae403025010xi0_0_5x5n066.fff.infile,f,a,"ae403025010xi0_0_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,"ae403025010.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 ae403025010xi0_0_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi0_0_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae403025010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae403025010.tim[TIME_PACKETS_SEL]' ...
ntpk=14
aste_ti2time: reading 'ae403025010.tim[DP_TIMC]' ...
ndpk=54582, t=267096909.576 - 267507771.520
aste_ti2time: reading 'ae403025010.tim[DP_DHU_AVG]' ...
1: t0=267098485,N0=2287599616,Y=40718897/38969544,f=16777218.623,j=1,d=0
2: t0=267160405,N0=2541223936,Y=38969544/38844791,f=16777218.354,j=0,d=0
3: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=0,d=0
4: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
5: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
6: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
7: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
8: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
9: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
10: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
11: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
12: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
13: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
14: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 47320 events )
... 10% ( 4732 / 47320 events )
... 20% ( 9464 / 47320 events )
... 30% ( 14196 / 47320 events )
... 40% ( 18928 / 47320 events )
... 50% ( 23660 / 47320 events )
... 60% ( 28392 / 47320 events )
... 70% ( 33124 / 47320 events )
... 80% ( 37856 / 47320 events )
... 90% ( 42588 / 47320 events )
... 100% ( 47320 / 47320 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267326588.932182 / time start
TSTOP = 267334908.930904 / time stop
TELAPASE = 8319.998723 / elapsed time = TSTOP - TSTART
ONTIME = 6591.999016 / on time = sum of all GTIs
LIVETIME = 6591.999016 / on-source time corrected for CCD exposure
EXPOSURE = 6591.999016 / exposure time
xisEventFitsUtil: rename ./fileQJsMp4-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 47322
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 47321/47322
[ 2] XISreadExp version 1.6
| OK: 47321/47321
[ 3] XISreadEvent version 2.7
| OK: 47320/47321 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 47320/47320
[ 5] XISeditEventFits version 2.1
| OK: 47320/47320
GET: 47320
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
47321 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
47321 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
47321 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
47320 : XIStime:ENTRY
47320 : XIStime:OK
1 : XISeditEventFits:BEGIN
47320 : XISeditEventFits:ENTRY
47320 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4304
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 47320 47320 SINGLE
XIS:RAWX 4 4 47320 47320 SINGLE
XIS:RAWY 4 4 47320 47320 SINGLE
XIS:ACTX 4 4 47320 47320 SINGLE
XIS:ACTY 4 4 47320 47320 SINGLE
XIS:DETX 4 4 47320 47320 SINGLE
XIS:DETY 4 4 47320 47320 SINGLE
XIS:FOCX 4 4 47320 47320 SINGLE
XIS:FOCY 4 4 47320 47320 SINGLE
XIS:X 4 4 47320 47320 SINGLE
XIS:Y 4 4 47320 47320 SINGLE
XIS:STATUS 4 4 47320 47320 SINGLE
XIS:PHAS 100 100 47320 47320 SINGLE
XIS:PHANOCTI 4 4 47320 47320 SINGLE
XIS:PHA 4 4 47320 47320 SINGLE
XIS:PI 4 4 47320 47320 SINGLE
XIS:GRADE 4 4 47320 47320 SINGLE
XIS:AEDATE 4 4 94640 47320 FAMILY
XIS:EXPTIME 4 4 47320 94640 FAMILY
XIS:EXPTIME_AETIME 8 8 94640 47320 SINGLE
XIS:S_TIME 8 8 47320 94640 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 47320 94640 FAMILY
XIS:EVENT_SEQ_NO 4 4 47320 47320 SINGLE
XIS:TIME 8 8 94640 47320 SINGLE
XIS:EXP_CENT_AETIME 8 8 94640 47320 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 47322 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 0.031 0.030 0.061 3.20
[ 2] XISreadExp 0.012 0.025 0.037 1.94
[ 3] XISreadEvent 0.758 0.056 0.814 42.73
[ 4] XIStime 0.195 0.022 0.217 11.39
[ 5] XISeditEventFits 0.697 0.063 0.760 39.90
(others) 0.006 0.010 0.016 0.84
--------------------------------------------------------------------------
TOTAL 1.699 0.206 1.905 100.00
-> xistime successful on ae403025010xi0_0_5x5n066.sff.infile,f,a,"ae403025010xi0_0_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,"ae403025010.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 ae403025010xi0_0_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi0_0_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae403025010.att'
SKYREF (7.1951, 59.3013, 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 = 7.19510 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 779.73 / 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 = 59.30130 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 843.52 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 47320 events )
... 10% ( 4732 / 47320 events )
... 20% ( 9464 / 47320 events )
... 30% ( 14196 / 47320 events )
... 40% ( 18928 / 47320 events )
... 50% ( 23660 / 47320 events )
... 60% ( 28392 / 47320 events )
... 70% ( 33124 / 47320 events )
... 80% ( 37856 / 47320 events )
... 90% ( 42588 / 47320 events )
... 100% ( 47320 / 47320 events )
xisEventFitsUtil: rename ./fileWZUaQc-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 47322
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 47321/47322
[ 2] XISreadExp version 1.6
| OK: 47321/47321
[ 3] XISreadEvent version 2.7
| OK: 47320/47321 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 47320/47320
[ 5] XISeditEventFits version 2.1
| OK: 47320/47320
GET: 47320
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
47321 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
47321 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
47321 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
47320 : XIScoord:ENTRY
47320 : XIScoord:OK
1 : XISeditEventFits:BEGIN
47320 : XISeditEventFits:ENTRY
47320 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4304
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 47320 94640 SINGLE
XIS:RAWX 4 4 47320 94640 SINGLE
XIS:RAWY 4 4 47320 94640 SINGLE
XIS:ACTX 4 4 94640 47320 SINGLE
XIS:ACTY 4 4 94640 47320 SINGLE
XIS:DETX 4 4 94640 47320 SINGLE
XIS:DETY 4 4 94640 47320 SINGLE
XIS:FOCX 4 4 94640 47320 SINGLE
XIS:FOCY 4 4 94640 47320 SINGLE
XIS:X 4 4 94640 47320 SINGLE
XIS:Y 4 4 94640 47320 SINGLE
XIS:STATUS 4 4 47320 47320 SINGLE
XIS:PHAS 100 100 47320 47320 SINGLE
XIS:PHANOCTI 4 4 47320 47320 SINGLE
XIS:PHA 4 4 47320 47320 SINGLE
XIS:PI 4 4 47320 47320 SINGLE
XIS:GRADE 4 4 47320 47320 SINGLE
XIS:AEDATE 4 4 47320 47320 FAMILY
XIS:EXPTIME 4 4 47320 47320 FAMILY
XIS:EXPTIME_AETIME 8 8 47320 47320 SINGLE
XIS:S_TIME 8 8 47320 47320 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 47320 47320 FAMILY
XIS:EVENT_SEQ_NO 4 4 47320 47320 SINGLE
XIS:TIME 8 8 47320 94640 SINGLE
XIS:EXP_CENT_AETIME 8 8 47320 47320 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 47322 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 0.043 0.020 0.063 3.01
[ 2] XISreadExp 0.011 0.023 0.034 1.63
[ 3] XISreadEvent 0.771 0.034 0.805 38.48
[ 4] XIScoord 0.363 0.033 0.396 18.93
[ 5] XISeditEventFits 0.703 0.069 0.772 36.90
(others) 0.014 0.008 0.022 1.05
--------------------------------------------------------------------------
TOTAL 1.905 0.187 2.092 100.00
-> xiscoord successful on ae403025010xi0_0_5x5n066.sff.infile,f,a,"ae403025010xi0_0_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 ae403025010xi0_0_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi0_0_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 / 47320 events )
... 10% ( 4732 / 47320 events )
... 20% ( 9464 / 47320 events )
... 30% ( 14196 / 47320 events )
... 40% ( 18928 / 47320 events )
... 50% ( 23660 / 47320 events )
... 60% ( 28392 / 47320 events )
... 70% ( 33124 / 47320 events )
... 80% ( 37856 / 47320 events )
... 90% ( 42588 / 47320 events )
... 100% ( 47320 / 47320 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 687 1.45
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 1294 2.73
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 402 0.85
B8 256 1PIX_FROM_SEGBOUNDARY 308 0.65
B9 512 SCI_3rd_TRAILING_ROW 632 1.34
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 1412 2.98
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 681 1.44
B16 65536 CALMASK 4427 9.36
B17 131072 SEGBOUNDARY 821 1.73
B18 262144 SCI_2nd_TRAILING_ROW 652 1.38
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 2000 4.23
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 5172 10.93
B29 536870912 SCI_TRAILING_ROW 4832 10.21
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 10 0.02
### 0 CLEAN_ZERO 27403 57.91
--------------------------------------------------------------
+++ 4294967295 SUM 50733 107.21
::: 524287 SAFE(B0-18) 35578 75.19
>>> 4294967295 TOTAL 47320 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileCb1cFC-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 47322
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 47321/47322
[ 2] XISreadExp version 1.6
| OK: 47321/47321
[ 3] XISreadEvent version 2.7
| OK: 47320/47321 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 47320/47320
[ 5] XISeditEventFits version 2.1
| OK: 47320/47320
GET: 47320
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
47321 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
47321 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
47321 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
47320 : XISputPixelQuality:ENTRY
47320 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
47320 : XISeditEventFits:ENTRY
47320 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4304
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 47320 47320 SINGLE
XIS:RAWX 4 4 47320 47320 SINGLE
XIS:RAWY 4 4 47320 94640 SINGLE
XIS:ACTX 4 4 47320 94640 SINGLE
XIS:ACTY 4 4 47320 94640 SINGLE
XIS:DETX 4 4 47320 47320 SINGLE
XIS:DETY 4 4 47320 47320 SINGLE
XIS:FOCX 4 4 47320 47320 SINGLE
XIS:FOCY 4 4 47320 47320 SINGLE
XIS:X 4 4 47320 47320 SINGLE
XIS:Y 4 4 47320 47320 SINGLE
XIS:STATUS 4 4 94640 47320 SINGLE
XIS:PHAS 100 100 47320 47320 SINGLE
XIS:PHANOCTI 4 4 47320 47320 SINGLE
XIS:PHA 4 4 47320 47320 SINGLE
XIS:PI 4 4 47320 47320 SINGLE
XIS:GRADE 4 4 47320 47320 SINGLE
XIS:AEDATE 4 4 47320 47320 FAMILY
XIS:EXPTIME 4 4 47320 47320 FAMILY
XIS:EXPTIME_AETIME 8 8 47320 47320 SINGLE
XIS:S_TIME 8 8 47320 47320 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 47320 47320 FAMILY
XIS:EVENT_SEQ_NO 4 4 47320 47320 SINGLE
XIS:TIME 8 8 47320 94640 SINGLE
XIS:EXP_CENT_AETIME 8 8 47320 47320 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 47322 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 0.035 0.017 0.052 2.92
[ 2] XISreadExp 0.016 0.023 0.039 2.19
[ 3] XISreadEvent 0.702 0.036 0.738 41.44
[ 4] XISputPixelQuality 0.112 0.025 0.137 7.69
[ 5] XISeditEventFits 0.709 0.089 0.798 44.81
(others) 0.012 0.005 0.017 0.95
--------------------------------------------------------------------------
TOTAL 1.586 0.195 1.781 100.00
-> xisputpixelquality successful on ae403025010xi0_0_5x5n066.sff.infile,f,a,"ae403025010xi0_0_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,"ae403025010xi0_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 ae403025010xi0_0_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi0_0_5x5n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae403025010xi0_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 ae403025010xi0_0.hk, S0_VDCHK18_CAL, nrows=2136
nvalid=2096 nrej=40 time=267272655.4 - 267334929.4 [s]
AE-temp: average=19.515 sigma=1.686 min=16.743 max=23.520 [degC]
Event... 1 (0)
... 0% ( 0 / 47320 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 4732 / 47320 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 9464 / 47320 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 14196 / 47320 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 18928 / 47320 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 23660 / 47320 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 28392 / 47320 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 33124 / 47320 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 37856 / 47320 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 42588 / 47320 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 47320 / 47320 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./file4v9kxB-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 47322
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 47321/47322
[ 2] XISreadExp version 1.6
| OK: 47321/47321
[ 3] XISreadEvent version 2.7
| OK: 47320/47321 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 47320/47320
[ 5] XIStrailCorrection version 3.1
| OK: 47320/47320
[ 6] XISctiCorrection version 3.4
| OK: 47320/47320
[ 7] XISgrade version 3.3
| OK: 47320/47320
[ 8] XISpha2pi version 3.2
| OK: 47320/47320
[ 9] XISeditEventFits version 2.1
| OK: 47320/47320
GET: 47320
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
47321 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
47321 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
47321 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
47320 : XISpreparePHASCORR:ENTRY
47320 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
47320 : XIStrailCorrection:ENTRY
47320 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
47320 : XISctiCorrection:ENTRY
47320 : XISctiCorrection:OK
1 : XISgrade:BEGIN
47320 : XISgrade:ENTRY
47320 : XISgrade:OK
1 : XISpha2pi:BEGIN
47320 : XISpha2pi:ENTRY
47320 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
47320 : XISeditEventFits:ENTRY
47320 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 189/5000
buffer size : 120000
buffer used : 4752
------------------------------------------------------------------------------
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 189286 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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 47320 236600 SINGLE
XIS:RAWX 4 4 47320 141960 SINGLE
XIS:RAWY 4 4 47320 94640 SINGLE
XIS:ACTX 4 4 47320 47320 SINGLE
XIS:ACTY 4 4 47320 141960 SINGLE
XIS:DETX 4 4 47320 47320 SINGLE
XIS:DETY 4 4 47320 47320 SINGLE
XIS:FOCX 4 4 47320 47320 SINGLE
XIS:FOCY 4 4 47320 47320 SINGLE
XIS:X 4 4 47320 47320 SINGLE
XIS:Y 4 4 47320 47320 SINGLE
XIS:STATUS 4 4 47320 47320 SINGLE
XIS:PHAS 100 100 47320 94640 SINGLE
XIS:PHANOCTI 4 4 94640 47320 SINGLE
XIS:PHA 4 4 94640 47320 SINGLE
XIS:PI 4 4 94640 47320 SINGLE
XIS:GRADE 4 4 94640 47320 SINGLE
XIS:AEDATE 4 4 47320 47320 FAMILY
XIS:EXPTIME 4 4 47320 47320 FAMILY
XIS:EXPTIME_AETIME 8 8 47320 47320 SINGLE
XIS:S_TIME 8 8 47320 47320 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 47320 47320 FAMILY
XIS:EVENT_SEQ_NO 4 4 47320 47320 SINGLE
XIS:TIME 8 8 47320 236600 SINGLE
XIS:EXP_CENT_AETIME 8 8 47320 47320 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 47322 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 94640 47320 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 47320 47320 SINGLE
XIS:PHASCORR 200 200 141960 141960 SINGLE
XIS:PHA:DOUBLE 8 8 47320 47320 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 0.037 0.016 0.053 0.98
[ 2] XISreadExp 0.011 0.023 0.034 0.63
[ 3] XISreadEvent 0.776 0.040 0.816 15.07
[ 4] XISpreparePHASCORR 0.058 0.027 0.085 1.57
[ 5] XIStrailCorrection 0.116 0.025 0.141 2.60
[ 6] XISctiCorrection 2.431 0.697 3.128 57.75
[ 7] XISgrade 0.180 0.023 0.203 3.75
[ 8] XISpha2pi 0.124 0.021 0.145 2.68
[ 9] XISeditEventFits 0.721 0.064 0.785 14.49
(others) 0.019 0.007 0.026 0.48
--------------------------------------------------------------------------
TOTAL 4.472 0.943 5.415 100.00
-> xispi successful on ae403025010xi0_0_5x5n066.sff.infile,f,a,"ae403025010xi0_0_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae403025010xi0_0_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 ae403025010xi0_0_5x5n066.sff
OUTFILE ae403025010xi0_0_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae403025010xi0_0_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 / 47320 events )
... 10% ( 4732 / 47320 events )
... 20% ( 9464 / 47320 events )
... 30% ( 14196 / 47320 events )
... 40% ( 18928 / 47320 events )
frame time jump, t=267329396.932 - 267330860.932 by 1464.000 s
frame time jump, t=267331004.931 - 267331268.931 by 264.000 s
... 50% ( 23660 / 47320 events )
... 60% ( 28392 / 47320 events )
... 70% ( 33124 / 47320 events )
... 80% ( 37856 / 47320 events )
... 90% ( 42588 / 47320 events )
... 100% ( 47320 / 47320 events )
XIScheckEventNo: GTI file 'ae403025010xi0_0_5x5n066.gti' created
N_FRAMES = 824 / number of frames in the input event file
N_TESTED = 824 / number of non-zero frames tested
N_PASSED = 824 / number of frames passed the test
N_T_JUMP = 2 / number of frames detected time jump
N_SATURA = 0 / number of frames telemetry saturated
T_TESTED = 6592.000000 / exposure of non-zero frames tested
T_PASSED = 6592.000000 / exposure of frames passed the test
T_T_JUMP = 1727.999706 / loss of exposure due to time jump
T_SATURA = 0.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 825
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 824/825
[ 2] XISreadExp version 1.6
| OK: 824/824
[ 3] XISreadEvent version 2.7 <------- LOOP: 47320
| OK: 47320/48144 -------> SKIP: 824
[ 4] XIScheckEventNo version 1.2
| OK: 47320/47320
GET: 47320
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
824 : XISreadFrame:ENTRY
824 : XISreadFrame:OK
1 : XISreadExp:BEGIN
824 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
48144 : XISreadEvent:ENTRY
48143 : XISreadEvent:OK
824 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
47320 : XIScheckEventNo:ENTRY
47320 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 242/5000
buffer size : 120000
buffer used : 6416
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 824 48144 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 824 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 824 48144 SINGLE
XIS:FRAMES:S_TIME 8 8 824 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 824 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 824 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 824 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 824 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 824 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 824 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 824 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 824 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 824 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 824 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 824 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 824 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 824 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 824 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 824 824 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 824 0 SINGLE
XIS:FRAMES:BIAS 16 16 824 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 824 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 824 0 SINGLE
XIS:FRAMES:AEDATE 4 4 824 48144 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 824 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 824 47320 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 824 824 SINGLE
XIS:FRAMES:TIME 8 8 824 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 47320 47320 SINGLE
XIS:RAWX 4 4 47320 0 SINGLE
XIS:RAWY 4 4 47320 0 SINGLE
XIS:ACTX 4 4 47320 0 SINGLE
XIS:ACTY 4 4 47320 0 SINGLE
XIS:DETX 4 4 47320 0 SINGLE
XIS:DETY 4 4 47320 0 SINGLE
XIS:FOCX 4 4 47320 0 SINGLE
XIS:FOCY 4 4 47320 0 SINGLE
XIS:X 4 4 47320 0 SINGLE
XIS:Y 4 4 47320 0 SINGLE
XIS:STATUS 4 4 47320 0 SINGLE
XIS:PHAS 100 100 47320 0 SINGLE
XIS:PHANOCTI 4 4 47320 0 SINGLE
XIS:PHA 4 4 47320 0 SINGLE
XIS:PI 4 4 47320 0 SINGLE
XIS:GRADE 4 4 47320 0 SINGLE
XIS:AEDATE 4 4 47320 48143 FAMILY
XIS:EXPTIME 4 4 47320 48143 FAMILY
XIS:EXPTIME_AETIME 8 8 47320 0 SINGLE
XIS:S_TIME 8 8 47320 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 47320 48143 FAMILY
XIS:EVENT_SEQ_NO 4 4 47320 48143 SINGLE
XIS:TIME 8 8 47320 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 47320 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 0.221 0.002 0.223 17.21
[ 2] XISreadExp 0.003 0.000 0.003 0.23
[ 3] XISreadEvent 0.976 0.026 1.002 77.32
[ 4] XIScheckEventNo 0.029 0.019 0.048 3.70
(others) 0.013 0.007 0.020 1.54
--------------------------------------------------------------------------
TOTAL 1.242 0.054 1.296 100.00
-> xisgtigen successful on ae403025010xi0_0_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 ae403025010xi1_0_3x3n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae403025010xi1_0_3x3n069.fff.infile,f,a,"ae403025010xi1_0_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,"ae403025010.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 ae403025010xi1_0_3x3n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi1_0_3x3n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae403025010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae403025010.tim[TIME_PACKETS_SEL]' ...
ntpk=14
aste_ti2time: reading 'ae403025010.tim[DP_TIMC]' ...
ndpk=54582, t=267096909.576 - 267507771.520
aste_ti2time: reading 'ae403025010.tim[DP_DHU_AVG]' ...
1: t0=267098485,N0=2287599616,Y=40718897/38969544,f=16777218.623,j=1,d=0
2: t0=267160405,N0=2541223936,Y=38969544/38844791,f=16777218.354,j=0,d=0
3: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=0,d=0
4: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
5: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
6: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
7: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
8: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
9: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
10: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
11: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
12: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
13: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
14: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 698049 events )
... 10% ( 69804 / 698049 events )
Event... 100001 (100000)
... 20% ( 139608 / 698049 events )
Event... 200001 (200000)
... 30% ( 209412 / 698049 events )
... 40% ( 279216 / 698049 events )
Event... 300001 (300000)
... 50% ( 349020 / 698049 events )
Event... 400001 (400000)
... 60% ( 418824 / 698049 events )
... 70% ( 488628 / 698049 events )
Event... 500001 (500000)
... 80% ( 558432 / 698049 events )
Event... 600001 (600000)
... 90% ( 628236 / 698049 events )
... 100% ( 698049 / 698049 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267272660.939738 / time start
TSTOP = 267326588.932183 / time stop
TELAPASE = 53927.992445 / elapsed time = TSTOP - TSTART
ONTIME = 48559.993245 / on time = sum of all GTIs
LIVETIME = 48559.993245 / on-source time corrected for CCD exposure
EXPOSURE = 48559.993245 / exposure time
xisEventFitsUtil: rename ./filesXS8lM-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 698051
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 698050/698051
[ 2] XISreadExp version 1.6
| OK: 698050/698050
[ 3] XISreadEvent version 2.7
| OK: 698049/698050 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 698049/698049
[ 5] XISeditEventFits version 2.1
| OK: 698049/698049
GET: 698049
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
698050 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
698050 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
698050 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
698049 : XIStime:ENTRY
698049 : XIStime:OK
1 : XISeditEventFits:BEGIN
698049 : XISeditEventFits:ENTRY
698049 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4272
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 698049 698049 SINGLE
XIS:RAWX 4 4 698049 698049 SINGLE
XIS:RAWY 4 4 698049 698049 SINGLE
XIS:ACTX 4 4 698049 698049 SINGLE
XIS:ACTY 4 4 698049 698049 SINGLE
XIS:DETX 4 4 698049 698049 SINGLE
XIS:DETY 4 4 698049 698049 SINGLE
XIS:FOCX 4 4 698049 698049 SINGLE
XIS:FOCY 4 4 698049 698049 SINGLE
XIS:X 4 4 698049 698049 SINGLE
XIS:Y 4 4 698049 698049 SINGLE
XIS:STATUS 4 4 698049 698049 SINGLE
XIS:PHAS 36 36 698049 698049 SINGLE
XIS:PHANOCTI 4 4 698049 698049 SINGLE
XIS:PHA 4 4 698049 698049 SINGLE
XIS:PI 4 4 698049 698049 SINGLE
XIS:GRADE 4 4 698049 698049 SINGLE
XIS:P_OUTER_MOST 4 4 698049 698049 SINGLE
XIS:SUM_OUTER_MOST 4 4 698049 698049 SINGLE
XIS:AEDATE 4 4 1396098 698049 FAMILY
XIS:EXPTIME 4 4 698049 1396098 FAMILY
XIS:EXPTIME_AETIME 8 8 1396098 698049 SINGLE
XIS:S_TIME 8 8 698049 1396098 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 698049 1396098 FAMILY
XIS:EVENT_SEQ_NO 4 4 698049 698049 SINGLE
XIS:TIME 8 8 1396098 698049 SINGLE
XIS:EXP_CENT_AETIME 8 8 1396098 698049 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 698051 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 0.465 0.386 0.851 3.23
[ 2] XISreadExp 0.190 0.352 0.542 2.06
[ 3] XISreadEvent 11.352 0.702 12.054 45.81
[ 4] XIStime 1.244 0.357 1.601 6.08
[ 5] XISeditEventFits 10.397 0.849 11.246 42.74
(others) 0.009 0.008 0.017 0.06
--------------------------------------------------------------------------
TOTAL 23.657 2.654 26.311 100.00
-> xistime successful on ae403025010xi1_0_3x3n069.sff.infile,f,a,"ae403025010xi1_0_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,"ae403025010.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 ae403025010xi1_0_3x3n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi1_0_3x3n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae403025010.att'
SKYREF (7.1951, 59.3013, 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 = 7.19510 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 805.66 / 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 = 59.30130 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 803.63 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 698049 events )
... 10% ( 69804 / 698049 events )
Event... 100001 (100000)
... 20% ( 139608 / 698049 events )
Event... 200001 (200000)
... 30% ( 209412 / 698049 events )
... 40% ( 279216 / 698049 events )
Event... 300001 (300000)
... 50% ( 349020 / 698049 events )
Event... 400001 (400000)
... 60% ( 418824 / 698049 events )
... 70% ( 488628 / 698049 events )
Event... 500001 (500000)
... 80% ( 558432 / 698049 events )
Event... 600001 (600000)
... 90% ( 628236 / 698049 events )
... 100% ( 698049 / 698049 events )
xisEventFitsUtil: rename ./filekt1kJb-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 698051
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 698050/698051
[ 2] XISreadExp version 1.6
| OK: 698050/698050
[ 3] XISreadEvent version 2.7
| OK: 698049/698050 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 698049/698049
[ 5] XISeditEventFits version 2.1
| OK: 698049/698049
GET: 698049
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
698050 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
698050 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
698050 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
698049 : XIScoord:ENTRY
698049 : XIScoord:OK
1 : XISeditEventFits:BEGIN
698049 : XISeditEventFits:ENTRY
698049 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4272
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 698049 1396098 SINGLE
XIS:RAWX 4 4 698049 1396098 SINGLE
XIS:RAWY 4 4 698049 1396098 SINGLE
XIS:ACTX 4 4 1396098 698049 SINGLE
XIS:ACTY 4 4 1396098 698049 SINGLE
XIS:DETX 4 4 1396098 698049 SINGLE
XIS:DETY 4 4 1396098 698049 SINGLE
XIS:FOCX 4 4 1396098 698049 SINGLE
XIS:FOCY 4 4 1396098 698049 SINGLE
XIS:X 4 4 1396098 698049 SINGLE
XIS:Y 4 4 1396098 698049 SINGLE
XIS:STATUS 4 4 698049 698049 SINGLE
XIS:PHAS 36 36 698049 698049 SINGLE
XIS:PHANOCTI 4 4 698049 698049 SINGLE
XIS:PHA 4 4 698049 698049 SINGLE
XIS:PI 4 4 698049 698049 SINGLE
XIS:GRADE 4 4 698049 698049 SINGLE
XIS:P_OUTER_MOST 4 4 698049 698049 SINGLE
XIS:SUM_OUTER_MOST 4 4 698049 698049 SINGLE
XIS:AEDATE 4 4 698049 698049 FAMILY
XIS:EXPTIME 4 4 698049 698049 FAMILY
XIS:EXPTIME_AETIME 8 8 698049 698049 SINGLE
XIS:S_TIME 8 8 698049 698049 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 698049 698049 FAMILY
XIS:EVENT_SEQ_NO 4 4 698049 698049 SINGLE
XIS:TIME 8 8 698049 1396098 SINGLE
XIS:EXP_CENT_AETIME 8 8 698049 698049 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 698051 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 0.529 0.371 0.900 2.96
[ 2] XISreadExp 0.190 0.295 0.485 1.59
[ 3] XISreadEvent 11.772 0.499 12.271 40.32
[ 4] XIScoord 4.787 0.398 5.185 17.04
[ 5] XISeditEventFits 10.589 0.979 11.568 38.01
(others) 0.016 0.008 0.024 0.08
--------------------------------------------------------------------------
TOTAL 27.884 2.550 30.433 100.00
-> xiscoord successful on ae403025010xi1_0_3x3n069.sff.infile,f,a,"ae403025010xi1_0_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 ae403025010xi1_0_3x3n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi1_0_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 / 698049 events )
... 10% ( 69804 / 698049 events )
Event... 100001 (100000)
... 20% ( 139608 / 698049 events )
Event... 200001 (200000)
... 30% ( 209412 / 698049 events )
... 40% ( 279216 / 698049 events )
Event... 300001 (300000)
... 50% ( 349020 / 698049 events )
Event... 400001 (400000)
... 60% ( 418824 / 698049 events )
... 70% ( 488628 / 698049 events )
Event... 500001 (500000)
... 80% ( 558432 / 698049 events )
Event... 600001 (600000)
... 90% ( 628236 / 698049 events )
... 100% ( 698049 / 698049 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 11375 1.63
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 25511 3.65
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 6808 0.98
B8 256 1PIX_FROM_SEGBOUNDARY 8207 1.18
B9 512 SCI_3rd_TRAILING_ROW 10557 1.51
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 31951 4.58
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 9340 1.34
B16 65536 CALMASK 70563 10.11
B17 131072 SEGBOUNDARY 7219 1.03
B18 262144 SCI_2nd_TRAILING_ROW 11680 1.67
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 65453 9.38
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 14795 2.12
B29 536870912 SCI_TRAILING_ROW 83582 11.97
B30 1073741824 SCI_AP_ROW 4545 0.65
B31 2147483648 SCI_ROW 4625 0.66
### 0 CLEAN_ZERO 423612 60.69
--------------------------------------------------------------
+++ 4294967295 SUM 789823 113.15
::: 524287 SAFE(B0-18) 541258 77.54
>>> 4294967295 TOTAL 698049 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filevC3s50-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 698051
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 698050/698051
[ 2] XISreadExp version 1.6
| OK: 698050/698050
[ 3] XISreadEvent version 2.7
| OK: 698049/698050 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 698049/698049
[ 5] XISeditEventFits version 2.1
| OK: 698049/698049
GET: 698049
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
698050 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
698050 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
698050 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
698049 : XISputPixelQuality:ENTRY
698049 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
698049 : XISeditEventFits:ENTRY
698049 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4272
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 698049 698049 SINGLE
XIS:RAWX 4 4 698049 698049 SINGLE
XIS:RAWY 4 4 698049 1396098 SINGLE
XIS:ACTX 4 4 698049 1396098 SINGLE
XIS:ACTY 4 4 698049 1396098 SINGLE
XIS:DETX 4 4 698049 698049 SINGLE
XIS:DETY 4 4 698049 698049 SINGLE
XIS:FOCX 4 4 698049 698049 SINGLE
XIS:FOCY 4 4 698049 698049 SINGLE
XIS:X 4 4 698049 698049 SINGLE
XIS:Y 4 4 698049 698049 SINGLE
XIS:STATUS 4 4 1396098 698049 SINGLE
XIS:PHAS 36 36 698049 698049 SINGLE
XIS:PHANOCTI 4 4 698049 698049 SINGLE
XIS:PHA 4 4 698049 698049 SINGLE
XIS:PI 4 4 698049 698049 SINGLE
XIS:GRADE 4 4 698049 698049 SINGLE
XIS:P_OUTER_MOST 4 4 698049 698049 SINGLE
XIS:SUM_OUTER_MOST 4 4 698049 698049 SINGLE
XIS:AEDATE 4 4 698049 698049 FAMILY
XIS:EXPTIME 4 4 698049 698049 FAMILY
XIS:EXPTIME_AETIME 8 8 698049 698049 SINGLE
XIS:S_TIME 8 8 698049 698049 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 698049 698049 FAMILY
XIS:EVENT_SEQ_NO 4 4 698049 698049 SINGLE
XIS:TIME 8 8 698049 1396098 SINGLE
XIS:EXP_CENT_AETIME 8 8 698049 698049 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 698051 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 0.484 0.407 0.891 3.47
[ 2] XISreadExp 0.213 0.363 0.576 2.24
[ 3] XISreadEvent 11.185 0.381 11.566 45.03
[ 4] XISputPixelQuality 0.923 0.378 1.301 5.06
[ 5] XISeditEventFits 10.216 1.119 11.335 44.13
(others) 0.012 0.005 0.017 0.07
--------------------------------------------------------------------------
TOTAL 23.033 2.653 25.686 100.00
-> xisputpixelquality successful on ae403025010xi1_0_3x3n069.sff.infile,f,a,"ae403025010xi1_0_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,"ae403025010xi1_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 ae403025010xi1_0_3x3n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi1_0_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 96-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 'ae403025010xi1_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 ae403025010xi1_0.hk, S1_VDCHK18_CAL, nrows=2135
nvalid=2096 nrej=39 time=267272663.4 - 267334917.4 [s]
AE-temp: average=19.077 sigma=1.690 min=16.344 max=23.104 [degC]
Event... 1 (0)
... 0% ( 0 / 698049 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 10% ( 69804 / 698049 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 20% ( 139608 / 698049 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 30% ( 209412 / 698049 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 40% ( 279216 / 698049 events )
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 349020 / 698049 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 400001 (400000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 418824 / 698049 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 500001 (500000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 558432 / 698049 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 600001 (600000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 628236 / 698049 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 698049 / 698049 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./file030AlT-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 698051
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 698050/698051
[ 2] XISreadExp version 1.6
| OK: 698050/698050
[ 3] XISreadEvent version 2.7
| OK: 698049/698050 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 698049/698049
[ 5] XIStrailCorrection version 3.1
| OK: 698049/698049
[ 6] XISctiCorrection version 3.4
| OK: 698049/698049
[ 7] XISgrade version 3.3
| OK: 698049/698049
[ 8] XISpha2pi version 3.2
| OK: 698049/698049
[ 9] XISeditEventFits version 2.1
| OK: 698049/698049
GET: 698049
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
698050 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
698050 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
698050 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
698049 : XISpreparePHASCORR:ENTRY
698049 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
698049 : XIStrailCorrection:ENTRY
698049 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
698049 : XISctiCorrection:ENTRY
698049 : XISctiCorrection:OK
1 : XISgrade:BEGIN
698049 : XISgrade:ENTRY
698049 : XISgrade:OK
1 : XISpha2pi:BEGIN
698049 : XISpha2pi:ENTRY
698049 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
698049 : XISeditEventFits:ENTRY
698049 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4464
------------------------------------------------------------------------------
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 2792202 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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 698049 3490245 SINGLE
XIS:RAWX 4 4 698049 2094147 SINGLE
XIS:RAWY 4 4 698049 1396098 SINGLE
XIS:ACTX 4 4 698049 698049 SINGLE
XIS:ACTY 4 4 698049 2094147 SINGLE
XIS:DETX 4 4 698049 698049 SINGLE
XIS:DETY 4 4 698049 698049 SINGLE
XIS:FOCX 4 4 698049 698049 SINGLE
XIS:FOCY 4 4 698049 698049 SINGLE
XIS:X 4 4 698049 698049 SINGLE
XIS:Y 4 4 698049 698049 SINGLE
XIS:STATUS 4 4 698049 698049 SINGLE
XIS:PHAS 36 36 698049 1396098 SINGLE
XIS:PHANOCTI 4 4 1396098 698049 SINGLE
XIS:PHA 4 4 1396098 698049 SINGLE
XIS:PI 4 4 1396098 698049 SINGLE
XIS:GRADE 4 4 1396098 698049 SINGLE
XIS:P_OUTER_MOST 4 4 698049 1396098 SINGLE
XIS:SUM_OUTER_MOST 4 4 698049 1396098 SINGLE
XIS:AEDATE 4 4 698049 698049 FAMILY
XIS:EXPTIME 4 4 698049 698049 FAMILY
XIS:EXPTIME_AETIME 8 8 698049 698049 SINGLE
XIS:S_TIME 8 8 698049 698049 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 698049 698049 FAMILY
XIS:EVENT_SEQ_NO 4 4 698049 698049 SINGLE
XIS:TIME 8 8 698049 3490245 SINGLE
XIS:EXP_CENT_AETIME 8 8 698049 698049 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 698051 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 1396098 698049 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 698049 698049 SINGLE
XIS:PHASCORR 72 72 2094147 2094147 SINGLE
XIS:PHA:DOUBLE 8 8 698049 698049 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 0.583 0.357 0.940 1.70
[ 2] XISreadExp 0.204 0.338 0.542 0.98
[ 3] XISreadEvent 11.833 0.524 12.357 22.29
[ 4] XISpreparePHASCORR 0.600 0.396 0.996 1.80
[ 5] XIStrailCorrection 1.388 0.366 1.754 3.16
[ 6] XISctiCorrection 17.340 5.799 23.139 41.74
[ 7] XISgrade 2.187 0.349 2.536 4.57
[ 8] XISpha2pi 1.428 0.379 1.807 3.26
[ 9] XISeditEventFits 10.494 0.849 11.343 20.46
(others) 0.017 0.009 0.026 0.05
--------------------------------------------------------------------------
TOTAL 46.074 9.366 55.440 100.00
-> xispi successful on ae403025010xi1_0_3x3n069.sff.infile,f,a,"ae403025010xi1_0_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"ae403025010xi1_0_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 ae403025010xi1_0_3x3n069.sff
OUTFILE ae403025010xi1_0_3x3n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae403025010xi1_0_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 / 698049 events )
frame time jump, t=267273644.940 - 267274716.939 by 1072.000 s
saturated frame, t=267274716.939 - 267274724.939 38844 (1142/39986) seg=1111
frame time jump, t=267274724.939 - 267274788.939 by 64.000 s
saturated frame, t=267274788.939 - 267274796.939 26708 (1133/27841) seg=1111
frame time jump, t=267274796.939 - 267274804.939 by 8.000 s
saturated frame, t=267274804.939 - 267274812.939 6049 (1691/7740) seg=1111
frame time jump, t=267274812.939 - 267274820.939 by 8.000 s
saturated frame, t=267274820.939 - 267274828.939 5617 (1692/7309) seg=1111
frame time jump, t=267274828.939 - 267274836.939 by 8.000 s
saturated frame, t=267274836.939 - 267274844.939 5187 (1690/6877) seg=1111
frame time jump, t=267274844.939 - 267274852.939 by 8.000 s
saturated frame, t=267274852.939 - 267274860.939 4820 (1690/6510) seg=1111
frame time jump, t=267274860.939 - 267275124.939 by 264.000 s
... 10% ( 69804 / 698049 events )
frame time jump, t=267279812.939 - 267280460.939 by 648.000 s
saturated frame, t=267280460.939 - 267280468.939 38838 (1140/39978) seg=1111
frame time jump, t=267280468.939 - 267280532.939 by 64.000 s
saturated frame, t=267280532.939 - 267280540.939 26817 (1133/27950) seg=1111
frame time jump, t=267280540.939 - 267280548.939 by 8.000 s
frame time jump, t=267280604.939 - 267280868.939 by 264.000 s
... 20% ( 139608 / 698049 events )
... 30% ( 209412 / 698049 events )
... 40% ( 279216 / 698049 events )
... 50% ( 349020 / 698049 events )
... 60% ( 418824 / 698049 events )
... 70% ( 488628 / 698049 events )
... 80% ( 558432 / 698049 events )
frame time jump, t=267317652.933 - 267318636.933 by 984.000 s
saturated frame, t=267318636.933 - 267318644.933 39899 (1135/41034) seg=1111
frame time jump, t=267318644.933 - 267318708.933 by 64.000 s
saturated frame, t=267318708.933 - 267318716.933 26347 (1133/27480) seg=1111
frame time jump, t=267318716.933 - 267318724.933 by 8.000 s
frame time jump, t=267318780.933 - 267319044.933 by 264.000 s
... 90% ( 628236 / 698049 events )
frame time jump, t=267323460.933 - 267324756.932 by 1296.000 s
saturated frame, t=267324756.932 - 267324764.932 38928 (1144/40072) seg=1111
frame time jump, t=267324764.932 - 267324828.932 by 64.000 s
saturated frame, t=267324828.932 - 267324836.932 26469 (1134/27603) seg=1111
frame time jump, t=267324836.932 - 267324844.932 by 8.000 s
frame time jump, t=267324900.932 - 267325164.932 by 264.000 s
... 100% ( 698049 / 698049 events )
XIScheckEventNo: GTI file 'ae403025010xi1_0_3x3n069.gti' created
N_FRAMES = 6098 / number of frames in the input event file
N_TESTED = 6070 / number of non-zero frames tested
N_PASSED = 6058 / number of frames passed the test
N_T_JUMP = 19 / number of frames detected time jump
N_SATURA = 12 / number of frames telemetry saturated
T_TESTED = 48560.000000 / exposure of non-zero frames tested
T_PASSED = 48464.000000 / exposure of frames passed the test
T_T_JUMP = 5367.999200 / loss of exposure due to time jump
T_SATURA = 96.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 6099
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 6098/6099
[ 2] XISreadExp version 1.6
| OK: 6098/6098
[ 3] XISreadEvent version 2.7 <------- LOOP: 698049
| OK: 698049/704147 -------> SKIP: 6098
[ 4] XIScheckEventNo version 1.2
| OK: 698049/698049
GET: 698049
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
6098 : XISreadFrame:ENTRY
6098 : XISreadFrame:OK
1 : XISreadExp:BEGIN
6098 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
704147 : XISreadEvent:ENTRY
704146 : XISreadEvent:OK
6070 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
698049 : XIScheckEventNo:ENTRY
698049 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6384
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 6098 704147 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 6098 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 6098 704147 SINGLE
XIS:FRAMES:S_TIME 8 8 6098 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 6098 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 6098 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 6098 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 6098 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 6098 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 6098 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 6098 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 6098 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 6098 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 6098 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 6098 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 6098 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 6098 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 6098 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 6098 6070 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 6098 0 SINGLE
XIS:FRAMES:BIAS 16 16 6098 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 6098 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 6098 0 SINGLE
XIS:FRAMES:AEDATE 4 4 6098 704147 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 6098 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 6098 698049 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 6098 6070 SINGLE
XIS:FRAMES:TIME 8 8 6098 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 698049 698049 SINGLE
XIS:RAWX 4 4 698049 0 SINGLE
XIS:RAWY 4 4 698049 0 SINGLE
XIS:ACTX 4 4 698049 0 SINGLE
XIS:ACTY 4 4 698049 0 SINGLE
XIS:DETX 4 4 698049 0 SINGLE
XIS:DETY 4 4 698049 0 SINGLE
XIS:FOCX 4 4 698049 0 SINGLE
XIS:FOCY 4 4 698049 0 SINGLE
XIS:X 4 4 698049 0 SINGLE
XIS:Y 4 4 698049 0 SINGLE
XIS:STATUS 4 4 698049 0 SINGLE
XIS:PHAS 36 36 698049 0 SINGLE
XIS:PHANOCTI 4 4 698049 0 SINGLE
XIS:PHA 4 4 698049 0 SINGLE
XIS:PI 4 4 698049 0 SINGLE
XIS:GRADE 4 4 698049 0 SINGLE
XIS:P_OUTER_MOST 4 4 698049 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 698049 0 SINGLE
XIS:AEDATE 4 4 698049 704146 FAMILY
XIS:EXPTIME 4 4 698049 704146 FAMILY
XIS:EXPTIME_AETIME 8 8 698049 0 SINGLE
XIS:S_TIME 8 8 698049 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 698049 704146 FAMILY
XIS:EVENT_SEQ_NO 4 4 698049 704146 SINGLE
XIS:TIME 8 8 698049 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 698049 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 1.438 0.015 1.453 9.21
[ 2] XISreadExp 0.008 0.004 0.012 0.08
[ 3] XISreadEvent 13.261 0.392 13.653 86.51
[ 4] XIScheckEventNo 0.339 0.305 0.644 4.08
(others) 0.014 0.006 0.020 0.13
--------------------------------------------------------------------------
TOTAL 15.060 0.722 15.782 100.00
-> xisgtigen successful on ae403025010xi1_0_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 ae403025010xi1_0_5x5n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae403025010xi1_0_5x5n069.fff.infile,f,a,"ae403025010xi1_0_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,"ae403025010.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 ae403025010xi1_0_5x5n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi1_0_5x5n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae403025010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae403025010.tim[TIME_PACKETS_SEL]' ...
ntpk=14
aste_ti2time: reading 'ae403025010.tim[DP_TIMC]' ...
ndpk=54582, t=267096909.576 - 267507771.520
aste_ti2time: reading 'ae403025010.tim[DP_DHU_AVG]' ...
1: t0=267098485,N0=2287599616,Y=40718897/38969544,f=16777218.623,j=1,d=0
2: t0=267160405,N0=2541223936,Y=38969544/38844791,f=16777218.354,j=0,d=0
3: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=0,d=0
4: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
5: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
6: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
7: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
8: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
9: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
10: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
11: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
12: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
13: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
14: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 100761 events )
... 10% ( 10076 / 100761 events )
... 20% ( 20152 / 100761 events )
... 30% ( 30228 / 100761 events )
... 40% ( 40304 / 100761 events )
... 50% ( 50380 / 100761 events )
... 60% ( 60456 / 100761 events )
... 70% ( 70532 / 100761 events )
... 80% ( 80608 / 100761 events )
... 90% ( 90684 / 100761 events )
Event... 100001 (100000)
... 100% ( 100761 / 100761 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267326588.932182 / time start
TSTOP = 267334908.930904 / time stop
TELAPASE = 8319.998723 / elapsed time = TSTOP - TSTART
ONTIME = 6535.999026 / on time = sum of all GTIs
LIVETIME = 6535.999026 / on-source time corrected for CCD exposure
EXPOSURE = 6535.999026 / exposure time
xisEventFitsUtil: rename ./fileJH677q-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 100763
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 100762/100763
[ 2] XISreadExp version 1.6
| OK: 100762/100762
[ 3] XISreadEvent version 2.7
| OK: 100761/100762 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 100761/100761
[ 5] XISeditEventFits version 2.1
| OK: 100761/100761
GET: 100761
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
100762 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
100762 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
100762 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
100761 : XIStime:ENTRY
100761 : XIStime:OK
1 : XISeditEventFits:BEGIN
100761 : XISeditEventFits:ENTRY
100761 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4304
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 100761 100761 SINGLE
XIS:RAWX 4 4 100761 100761 SINGLE
XIS:RAWY 4 4 100761 100761 SINGLE
XIS:ACTX 4 4 100761 100761 SINGLE
XIS:ACTY 4 4 100761 100761 SINGLE
XIS:DETX 4 4 100761 100761 SINGLE
XIS:DETY 4 4 100761 100761 SINGLE
XIS:FOCX 4 4 100761 100761 SINGLE
XIS:FOCY 4 4 100761 100761 SINGLE
XIS:X 4 4 100761 100761 SINGLE
XIS:Y 4 4 100761 100761 SINGLE
XIS:STATUS 4 4 100761 100761 SINGLE
XIS:PHAS 100 100 100761 100761 SINGLE
XIS:PHANOCTI 4 4 100761 100761 SINGLE
XIS:PHA 4 4 100761 100761 SINGLE
XIS:PI 4 4 100761 100761 SINGLE
XIS:GRADE 4 4 100761 100761 SINGLE
XIS:AEDATE 4 4 201522 100761 FAMILY
XIS:EXPTIME 4 4 100761 201522 FAMILY
XIS:EXPTIME_AETIME 8 8 201522 100761 SINGLE
XIS:S_TIME 8 8 100761 201522 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 100761 201522 FAMILY
XIS:EVENT_SEQ_NO 4 4 100761 100761 SINGLE
XIS:TIME 8 8 201522 100761 SINGLE
XIS:EXP_CENT_AETIME 8 8 201522 100761 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 100763 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 0.055 0.057 0.112 2.94
[ 2] XISreadExp 0.031 0.038 0.069 1.81
[ 3] XISreadEvent 1.623 0.118 1.741 45.78
[ 4] XIStime 0.291 0.048 0.339 8.91
[ 5] XISeditEventFits 1.395 0.131 1.526 40.13
(others) 0.006 0.010 0.016 0.42
--------------------------------------------------------------------------
TOTAL 3.400 0.402 3.802 100.00
-> xistime successful on ae403025010xi1_0_5x5n069.sff.infile,f,a,"ae403025010xi1_0_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,"ae403025010.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 ae403025010xi1_0_5x5n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi1_0_5x5n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae403025010.att'
SKYREF (7.1951, 59.3013, 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 = 7.19510 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 805.66 / 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 = 59.30130 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 803.63 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 100761 events )
... 10% ( 10076 / 100761 events )
... 20% ( 20152 / 100761 events )
... 30% ( 30228 / 100761 events )
... 40% ( 40304 / 100761 events )
... 50% ( 50380 / 100761 events )
... 60% ( 60456 / 100761 events )
... 70% ( 70532 / 100761 events )
... 80% ( 80608 / 100761 events )
... 90% ( 90684 / 100761 events )
Event... 100001 (100000)
... 100% ( 100761 / 100761 events )
xisEventFitsUtil: rename ./filetOzroD-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 100763
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 100762/100763
[ 2] XISreadExp version 1.6
| OK: 100762/100762
[ 3] XISreadEvent version 2.7
| OK: 100761/100762 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 100761/100761
[ 5] XISeditEventFits version 2.1
| OK: 100761/100761
GET: 100761
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
100762 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
100762 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
100762 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
100761 : XIScoord:ENTRY
100761 : XIScoord:OK
1 : XISeditEventFits:BEGIN
100761 : XISeditEventFits:ENTRY
100761 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4304
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 100761 201522 SINGLE
XIS:RAWX 4 4 100761 201522 SINGLE
XIS:RAWY 4 4 100761 201522 SINGLE
XIS:ACTX 4 4 201522 100761 SINGLE
XIS:ACTY 4 4 201522 100761 SINGLE
XIS:DETX 4 4 201522 100761 SINGLE
XIS:DETY 4 4 201522 100761 SINGLE
XIS:FOCX 4 4 201522 100761 SINGLE
XIS:FOCY 4 4 201522 100761 SINGLE
XIS:X 4 4 201522 100761 SINGLE
XIS:Y 4 4 201522 100761 SINGLE
XIS:STATUS 4 4 100761 100761 SINGLE
XIS:PHAS 100 100 100761 100761 SINGLE
XIS:PHANOCTI 4 4 100761 100761 SINGLE
XIS:PHA 4 4 100761 100761 SINGLE
XIS:PI 4 4 100761 100761 SINGLE
XIS:GRADE 4 4 100761 100761 SINGLE
XIS:AEDATE 4 4 100761 100761 FAMILY
XIS:EXPTIME 4 4 100761 100761 FAMILY
XIS:EXPTIME_AETIME 8 8 100761 100761 SINGLE
XIS:S_TIME 8 8 100761 100761 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 100761 100761 FAMILY
XIS:EVENT_SEQ_NO 4 4 100761 100761 SINGLE
XIS:TIME 8 8 100761 201522 SINGLE
XIS:EXP_CENT_AETIME 8 8 100761 100761 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 100763 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.081 0.058 0.139 3.18
[ 2] XISreadExp 0.024 0.042 0.066 1.51
[ 3] XISreadEvent 1.587 0.090 1.677 38.41
[ 4] XIScoord 0.711 0.088 0.799 18.30
[ 5] XISeditEventFits 1.499 0.164 1.663 38.09
(others) 0.014 0.008 0.022 0.50
--------------------------------------------------------------------------
TOTAL 3.915 0.450 4.365 100.00
-> xiscoord successful on ae403025010xi1_0_5x5n069.sff.infile,f,a,"ae403025010xi1_0_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 ae403025010xi1_0_5x5n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi1_0_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 / 100761 events )
... 10% ( 10076 / 100761 events )
... 20% ( 20152 / 100761 events )
... 30% ( 30228 / 100761 events )
... 40% ( 40304 / 100761 events )
... 50% ( 50380 / 100761 events )
... 60% ( 60456 / 100761 events )
... 70% ( 70532 / 100761 events )
... 80% ( 80608 / 100761 events )
... 90% ( 90684 / 100761 events )
Event... 100001 (100000)
... 100% ( 100761 / 100761 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 1.19
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 3332 3.31
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 277 0.27
B8 256 1PIX_FROM_SEGBOUNDARY 531 0.53
B9 512 SCI_3rd_TRAILING_ROW 2005 1.99
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 3984 3.95
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 1241 1.23
B16 65536 CALMASK 10028 9.95
B17 131072 SEGBOUNDARY 943 0.94
B18 262144 SCI_2nd_TRAILING_ROW 1926 1.91
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 10785 10.70
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 1678 1.67
B29 536870912 SCI_TRAILING_ROW 20055 19.90
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 6 0.01
### 0 CLEAN_ZERO 54973 54.56
--------------------------------------------------------------
+++ 4294967295 SUM 112963 112.11
::: 524287 SAFE(B0-18) 70710 70.18
>>> 4294967295 TOTAL 100761 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filejLdfKC-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 100763
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 100762/100763
[ 2] XISreadExp version 1.6
| OK: 100762/100762
[ 3] XISreadEvent version 2.7
| OK: 100761/100762 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 100761/100761
[ 5] XISeditEventFits version 2.1
| OK: 100761/100761
GET: 100761
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
100762 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
100762 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
100762 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
100761 : XISputPixelQuality:ENTRY
100761 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
100761 : XISeditEventFits:ENTRY
100761 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4304
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 100761 100761 SINGLE
XIS:RAWX 4 4 100761 100761 SINGLE
XIS:RAWY 4 4 100761 201522 SINGLE
XIS:ACTX 4 4 100761 201522 SINGLE
XIS:ACTY 4 4 100761 201522 SINGLE
XIS:DETX 4 4 100761 100761 SINGLE
XIS:DETY 4 4 100761 100761 SINGLE
XIS:FOCX 4 4 100761 100761 SINGLE
XIS:FOCY 4 4 100761 100761 SINGLE
XIS:X 4 4 100761 100761 SINGLE
XIS:Y 4 4 100761 100761 SINGLE
XIS:STATUS 4 4 201522 100761 SINGLE
XIS:PHAS 100 100 100761 100761 SINGLE
XIS:PHANOCTI 4 4 100761 100761 SINGLE
XIS:PHA 4 4 100761 100761 SINGLE
XIS:PI 4 4 100761 100761 SINGLE
XIS:GRADE 4 4 100761 100761 SINGLE
XIS:AEDATE 4 4 100761 100761 FAMILY
XIS:EXPTIME 4 4 100761 100761 FAMILY
XIS:EXPTIME_AETIME 8 8 100761 100761 SINGLE
XIS:S_TIME 8 8 100761 100761 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 100761 100761 FAMILY
XIS:EVENT_SEQ_NO 4 4 100761 100761 SINGLE
XIS:TIME 8 8 100761 201522 SINGLE
XIS:EXP_CENT_AETIME 8 8 100761 100761 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 100763 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 0.077 0.047 0.124 3.38
[ 2] XISreadExp 0.022 0.054 0.076 2.07
[ 3] XISreadEvent 1.516 0.060 1.576 42.99
[ 4] XISputPixelQuality 0.178 0.058 0.236 6.44
[ 5] XISeditEventFits 1.451 0.186 1.637 44.65
(others) 0.008 0.009 0.017 0.46
--------------------------------------------------------------------------
TOTAL 3.252 0.414 3.665 100.00
-> xisputpixelquality successful on ae403025010xi1_0_5x5n069.sff.infile,f,a,"ae403025010xi1_0_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,"ae403025010xi1_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 ae403025010xi1_0_5x5n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi1_0_5x5n069.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae403025010xi1_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 ae403025010xi1_0.hk, S1_VDCHK18_CAL, nrows=2135
nvalid=2096 nrej=39 time=267272663.4 - 267334917.4 [s]
AE-temp: average=19.077 sigma=1.690 min=16.344 max=23.104 [degC]
Event... 1 (0)
... 0% ( 0 / 100761 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 10076 / 100761 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 20152 / 100761 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 30228 / 100761 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 40304 / 100761 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 50380 / 100761 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 60456 / 100761 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 70532 / 100761 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 80608 / 100761 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 90684 / 100761 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 100761 / 100761 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filevmrwUE-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 100763
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 100762/100763
[ 2] XISreadExp version 1.6
| OK: 100762/100762
[ 3] XISreadEvent version 2.7
| OK: 100761/100762 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 100761/100761
[ 5] XIStrailCorrection version 3.1
| OK: 100761/100761
[ 6] XISctiCorrection version 3.4
| OK: 100761/100761
[ 7] XISgrade version 3.3
| OK: 100761/100761
[ 8] XISpha2pi version 3.2
| OK: 100761/100761
[ 9] XISeditEventFits version 2.1
| OK: 100761/100761
GET: 100761
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
100762 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
100762 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
100762 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
100761 : XISpreparePHASCORR:ENTRY
100761 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
100761 : XIStrailCorrection:ENTRY
100761 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
100761 : XISctiCorrection:ENTRY
100761 : XISctiCorrection:OK
1 : XISgrade:BEGIN
100761 : XISgrade:ENTRY
100761 : XISgrade:OK
1 : XISpha2pi:BEGIN
100761 : XISpha2pi:ENTRY
100761 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
100761 : XISeditEventFits:ENTRY
100761 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 189/5000
buffer size : 120000
buffer used : 4752
------------------------------------------------------------------------------
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 403050 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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 100761 503805 SINGLE
XIS:RAWX 4 4 100761 302283 SINGLE
XIS:RAWY 4 4 100761 201522 SINGLE
XIS:ACTX 4 4 100761 100761 SINGLE
XIS:ACTY 4 4 100761 302283 SINGLE
XIS:DETX 4 4 100761 100761 SINGLE
XIS:DETY 4 4 100761 100761 SINGLE
XIS:FOCX 4 4 100761 100761 SINGLE
XIS:FOCY 4 4 100761 100761 SINGLE
XIS:X 4 4 100761 100761 SINGLE
XIS:Y 4 4 100761 100761 SINGLE
XIS:STATUS 4 4 100761 100761 SINGLE
XIS:PHAS 100 100 100761 201522 SINGLE
XIS:PHANOCTI 4 4 201522 100761 SINGLE
XIS:PHA 4 4 201522 100761 SINGLE
XIS:PI 4 4 201522 100761 SINGLE
XIS:GRADE 4 4 201522 100761 SINGLE
XIS:AEDATE 4 4 100761 100761 FAMILY
XIS:EXPTIME 4 4 100761 100761 FAMILY
XIS:EXPTIME_AETIME 8 8 100761 100761 SINGLE
XIS:S_TIME 8 8 100761 100761 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 100761 100761 FAMILY
XIS:EVENT_SEQ_NO 4 4 100761 100761 SINGLE
XIS:TIME 8 8 100761 503805 SINGLE
XIS:EXP_CENT_AETIME 8 8 100761 100761 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 100763 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 201522 100761 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 100761 100761 SINGLE
XIS:PHASCORR 200 200 302283 302283 SINGLE
XIS:PHA:DOUBLE 8 8 100761 100761 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 0.093 0.061 0.154 1.64
[ 2] XISreadExp 0.034 0.045 0.079 0.84
[ 3] XISreadEvent 1.758 0.082 1.840 19.59
[ 4] XISpreparePHASCORR 0.112 0.046 0.158 1.68
[ 5] XIStrailCorrection 0.223 0.047 0.270 2.87
[ 6] XISctiCorrection 3.786 0.794 4.580 48.77
[ 7] XISgrade 0.324 0.055 0.379 4.03
[ 8] XISpha2pi 0.232 0.056 0.288 3.07
[ 9] XISeditEventFits 1.490 0.129 1.619 17.23
(others) 0.018 0.008 0.026 0.28
--------------------------------------------------------------------------
TOTAL 8.070 1.323 9.393 100.00
-> xispi successful on ae403025010xi1_0_5x5n069.sff.infile,f,a,"ae403025010xi1_0_5x5n069.sff",,,"Name of input event fits file" outfile,f,a,"ae403025010xi1_0_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 ae403025010xi1_0_5x5n069.sff
OUTFILE ae403025010xi1_0_5x5n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae403025010xi1_0_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 / 100761 events )
... 10% ( 10076 / 100761 events )
... 20% ( 20152 / 100761 events )
... 30% ( 30228 / 100761 events )
... 40% ( 40304 / 100761 events )
frame time jump, t=267329396.932 - 267330860.932 by 1464.000 s
saturated frame, t=267330860.932 - 267330868.932 39766 (820/40586) seg=1111
saturated frame, t=267330868.932 - 267330876.932 37266 (808/38074) seg=1111
frame time jump, t=267330876.932 - 267330932.932 by 56.000 s
saturated frame, t=267330932.932 - 267330940.932 28800 (808/29608) seg=1111
saturated frame, t=267330940.932 - 267330948.932 863 (1443/2306) seg=1111
saturated frame, t=267330948.931 - 267330956.931 1 (1439/1440) seg=1111
... 50% ( 50380 / 100761 events )
frame time jump, t=267331004.931 - 267331268.931 by 264.000 s
... 60% ( 60456 / 100761 events )
... 70% ( 70532 / 100761 events )
... 80% ( 80608 / 100761 events )
... 90% ( 90684 / 100761 events )
... 100% ( 100761 / 100761 events )
XIScheckEventNo: GTI file 'ae403025010xi1_0_5x5n069.gti' created
N_FRAMES = 824 / number of frames in the input event file
N_TESTED = 817 / number of non-zero frames tested
N_PASSED = 812 / number of frames passed the test
N_T_JUMP = 3 / number of frames detected time jump
N_SATURA = 5 / number of frames telemetry saturated
T_TESTED = 6536.000000 / exposure of non-zero frames tested
T_PASSED = 6496.000000 / exposure of frames passed the test
T_T_JUMP = 1783.999697 / loss of exposure due to time jump
T_SATURA = 40.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 825
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 824/825
[ 2] XISreadExp version 1.6
| OK: 824/824
[ 3] XISreadEvent version 2.7 <------- LOOP: 100761
| OK: 100761/101585 -------> SKIP: 824
[ 4] XIScheckEventNo version 1.2
| OK: 100761/100761
GET: 100761
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
824 : XISreadFrame:ENTRY
824 : XISreadFrame:OK
1 : XISreadExp:BEGIN
824 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
101585 : XISreadEvent:ENTRY
101584 : XISreadEvent:OK
817 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
100761 : XIScheckEventNo:ENTRY
100761 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 242/5000
buffer size : 120000
buffer used : 6416
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 824 101585 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 824 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 824 101585 SINGLE
XIS:FRAMES:S_TIME 8 8 824 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 824 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 824 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 824 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 824 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 824 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 824 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 824 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 824 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 824 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 824 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 824 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 824 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 824 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 824 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 824 817 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 824 0 SINGLE
XIS:FRAMES:BIAS 16 16 824 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 824 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 824 0 SINGLE
XIS:FRAMES:AEDATE 4 4 824 101585 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 824 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 824 100761 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 824 817 SINGLE
XIS:FRAMES:TIME 8 8 824 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 100761 100761 SINGLE
XIS:RAWX 4 4 100761 0 SINGLE
XIS:RAWY 4 4 100761 0 SINGLE
XIS:ACTX 4 4 100761 0 SINGLE
XIS:ACTY 4 4 100761 0 SINGLE
XIS:DETX 4 4 100761 0 SINGLE
XIS:DETY 4 4 100761 0 SINGLE
XIS:FOCX 4 4 100761 0 SINGLE
XIS:FOCY 4 4 100761 0 SINGLE
XIS:X 4 4 100761 0 SINGLE
XIS:Y 4 4 100761 0 SINGLE
XIS:STATUS 4 4 100761 0 SINGLE
XIS:PHAS 100 100 100761 0 SINGLE
XIS:PHANOCTI 4 4 100761 0 SINGLE
XIS:PHA 4 4 100761 0 SINGLE
XIS:PI 4 4 100761 0 SINGLE
XIS:GRADE 4 4 100761 0 SINGLE
XIS:AEDATE 4 4 100761 101584 FAMILY
XIS:EXPTIME 4 4 100761 101584 FAMILY
XIS:EXPTIME_AETIME 8 8 100761 0 SINGLE
XIS:S_TIME 8 8 100761 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 100761 101584 FAMILY
XIS:EVENT_SEQ_NO 4 4 100761 101584 SINGLE
XIS:TIME 8 8 100761 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 100761 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 0.203 0.003 0.206 9.32
[ 2] XISreadExp 0.002 0.000 0.002 0.09
[ 3] XISreadEvent 1.805 0.073 1.878 84.98
[ 4] XIScheckEventNo 0.055 0.049 0.104 4.71
(others) 0.015 0.005 0.020 0.90
--------------------------------------------------------------------------
TOTAL 2.080 0.130 2.210 100.00
-> xisgtigen successful on ae403025010xi1_0_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 ae403025010xi3_0_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae403025010xi3_0_3x3n066.fff.infile,f,a,"ae403025010xi3_0_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,"ae403025010.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 ae403025010xi3_0_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi3_0_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae403025010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae403025010.tim[TIME_PACKETS_SEL]' ...
ntpk=14
aste_ti2time: reading 'ae403025010.tim[DP_TIMC]' ...
ndpk=54582, t=267096909.576 - 267507771.520
aste_ti2time: reading 'ae403025010.tim[DP_DHU_AVG]' ...
1: t0=267098485,N0=2287599616,Y=40718897/38969544,f=16777218.623,j=1,d=0
2: t0=267160405,N0=2541223936,Y=38969544/38844791,f=16777218.354,j=0,d=0
3: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=0,d=0
4: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
5: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
6: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
7: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
8: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
9: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
10: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
11: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
12: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
13: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
14: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 391903 events )
... 10% ( 39190 / 391903 events )
... 20% ( 78380 / 391903 events )
Event... 100001 (100000)
... 30% ( 117570 / 391903 events )
... 40% ( 156760 / 391903 events )
... 50% ( 195950 / 391903 events )
Event... 200001 (200000)
... 60% ( 235140 / 391903 events )
... 70% ( 274330 / 391903 events )
Event... 300001 (300000)
... 80% ( 313520 / 391903 events )
... 90% ( 352710 / 391903 events )
... 100% ( 391903 / 391903 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267272676.939736 / time start
TSTOP = 267326588.932183 / time stop
TELAPASE = 53911.992447 / elapsed time = TSTOP - TSTART
ONTIME = 48855.993192 / on time = sum of all GTIs
LIVETIME = 48855.993192 / on-source time corrected for CCD exposure
EXPOSURE = 48855.993192 / exposure time
xisEventFitsUtil: rename ./fileM5HtIO-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 391905
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 391904/391905
[ 2] XISreadExp version 1.6
| OK: 391904/391904
[ 3] XISreadEvent version 2.7
| OK: 391903/391904 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 391903/391903
[ 5] XISeditEventFits version 2.1
| OK: 391903/391903
GET: 391903
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
391904 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
391904 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
391904 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
391903 : XIStime:ENTRY
391903 : XIStime:OK
1 : XISeditEventFits:BEGIN
391903 : XISeditEventFits:ENTRY
391903 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4272
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 391903 391903 SINGLE
XIS:RAWX 4 4 391903 391903 SINGLE
XIS:RAWY 4 4 391903 391903 SINGLE
XIS:ACTX 4 4 391903 391903 SINGLE
XIS:ACTY 4 4 391903 391903 SINGLE
XIS:DETX 4 4 391903 391903 SINGLE
XIS:DETY 4 4 391903 391903 SINGLE
XIS:FOCX 4 4 391903 391903 SINGLE
XIS:FOCY 4 4 391903 391903 SINGLE
XIS:X 4 4 391903 391903 SINGLE
XIS:Y 4 4 391903 391903 SINGLE
XIS:STATUS 4 4 391903 391903 SINGLE
XIS:PHAS 36 36 391903 391903 SINGLE
XIS:PHANOCTI 4 4 391903 391903 SINGLE
XIS:PHA 4 4 391903 391903 SINGLE
XIS:PI 4 4 391903 391903 SINGLE
XIS:GRADE 4 4 391903 391903 SINGLE
XIS:P_OUTER_MOST 4 4 391903 391903 SINGLE
XIS:SUM_OUTER_MOST 4 4 391903 391903 SINGLE
XIS:AEDATE 4 4 783806 391903 FAMILY
XIS:EXPTIME 4 4 391903 783806 FAMILY
XIS:EXPTIME_AETIME 8 8 783806 391903 SINGLE
XIS:S_TIME 8 8 391903 783806 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 391903 783806 FAMILY
XIS:EVENT_SEQ_NO 4 4 391903 391903 SINGLE
XIS:TIME 8 8 783806 391903 SINGLE
XIS:EXP_CENT_AETIME 8 8 783806 391903 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 391905 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 0.273 0.202 0.475 3.18
[ 2] XISreadExp 0.145 0.190 0.335 2.25
[ 3] XISreadEvent 6.320 0.385 6.705 44.94
[ 4] XIStime 0.805 0.234 1.039 6.96
[ 5] XISeditEventFits 5.862 0.487 6.349 42.56
(others) 0.010 0.006 0.016 0.11
--------------------------------------------------------------------------
TOTAL 13.415 1.504 14.919 100.00
-> xistime successful on ae403025010xi3_0_3x3n066.sff.infile,f,a,"ae403025010xi3_0_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,"ae403025010.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 ae403025010xi3_0_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi3_0_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae403025010.att'
SKYREF (7.1951, 59.3013, 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 = 7.19510 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 728.59 / 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 = 59.30130 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 740.04 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 391903 events )
... 10% ( 39190 / 391903 events )
... 20% ( 78380 / 391903 events )
Event... 100001 (100000)
... 30% ( 117570 / 391903 events )
... 40% ( 156760 / 391903 events )
... 50% ( 195950 / 391903 events )
Event... 200001 (200000)
... 60% ( 235140 / 391903 events )
... 70% ( 274330 / 391903 events )
Event... 300001 (300000)
... 80% ( 313520 / 391903 events )
... 90% ( 352710 / 391903 events )
... 100% ( 391903 / 391903 events )
xisEventFitsUtil: rename ./fileDP3JEs-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 391905
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 391904/391905
[ 2] XISreadExp version 1.6
| OK: 391904/391904
[ 3] XISreadEvent version 2.7
| OK: 391903/391904 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 391903/391903
[ 5] XISeditEventFits version 2.1
| OK: 391903/391903
GET: 391903
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
391904 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
391904 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
391904 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
391903 : XIScoord:ENTRY
391903 : XIScoord:OK
1 : XISeditEventFits:BEGIN
391903 : XISeditEventFits:ENTRY
391903 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4272
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 391903 783806 SINGLE
XIS:RAWX 4 4 391903 783806 SINGLE
XIS:RAWY 4 4 391903 783806 SINGLE
XIS:ACTX 4 4 783806 391903 SINGLE
XIS:ACTY 4 4 783806 391903 SINGLE
XIS:DETX 4 4 783806 391903 SINGLE
XIS:DETY 4 4 783806 391903 SINGLE
XIS:FOCX 4 4 783806 391903 SINGLE
XIS:FOCY 4 4 783806 391903 SINGLE
XIS:X 4 4 783806 391903 SINGLE
XIS:Y 4 4 783806 391903 SINGLE
XIS:STATUS 4 4 391903 391903 SINGLE
XIS:PHAS 36 36 391903 391903 SINGLE
XIS:PHANOCTI 4 4 391903 391903 SINGLE
XIS:PHA 4 4 391903 391903 SINGLE
XIS:PI 4 4 391903 391903 SINGLE
XIS:GRADE 4 4 391903 391903 SINGLE
XIS:P_OUTER_MOST 4 4 391903 391903 SINGLE
XIS:SUM_OUTER_MOST 4 4 391903 391903 SINGLE
XIS:AEDATE 4 4 391903 391903 FAMILY
XIS:EXPTIME 4 4 391903 391903 FAMILY
XIS:EXPTIME_AETIME 8 8 391903 391903 SINGLE
XIS:S_TIME 8 8 391903 391903 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 391903 391903 FAMILY
XIS:EVENT_SEQ_NO 4 4 391903 391903 SINGLE
XIS:TIME 8 8 391903 783806 SINGLE
XIS:EXP_CENT_AETIME 8 8 391903 391903 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 391905 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 0.298 0.215 0.513 3.00
[ 2] XISreadExp 0.114 0.202 0.316 1.85
[ 3] XISreadEvent 6.458 0.330 6.788 39.73
[ 4] XIScoord 2.843 0.233 3.075 18.00
[ 5] XISeditEventFits 5.821 0.550 6.371 37.29
(others) 0.016 0.006 0.022 0.13
--------------------------------------------------------------------------
TOTAL 15.550 1.536 17.085 100.00
-> xiscoord successful on ae403025010xi3_0_3x3n066.sff.infile,f,a,"ae403025010xi3_0_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 ae403025010xi3_0_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi3_0_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 / 391903 events )
... 10% ( 39190 / 391903 events )
... 20% ( 78380 / 391903 events )
Event... 100001 (100000)
... 30% ( 117570 / 391903 events )
... 40% ( 156760 / 391903 events )
... 50% ( 195950 / 391903 events )
Event... 200001 (200000)
... 60% ( 235140 / 391903 events )
... 70% ( 274330 / 391903 events )
Event... 300001 (300000)
... 80% ( 313520 / 391903 events )
... 90% ( 352710 / 391903 events )
... 100% ( 391903 / 391903 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 6353 1.62
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 16000 4.08
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 4123 1.05
B8 256 1PIX_FROM_SEGBOUNDARY 2231 0.57
B9 512 SCI_3rd_TRAILING_ROW 5328 1.36
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 17954 4.58
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 5707 1.46
B16 65536 CALMASK 48722 12.43
B17 131072 SEGBOUNDARY 7863 2.01
B18 262144 SCI_2nd_TRAILING_ROW 5523 1.41
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 9615 2.45
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 45549 11.62
B29 536870912 SCI_TRAILING_ROW 42620 10.88
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 116 0.03
### 0 CLEAN_ZERO 215250 54.92
--------------------------------------------------------------
+++ 4294967295 SUM 432954 110.47
::: 524287 SAFE(B0-18) 296280 75.60
>>> 4294967295 TOTAL 391903 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileD0AFlr-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 391905
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 391904/391905
[ 2] XISreadExp version 1.6
| OK: 391904/391904
[ 3] XISreadEvent version 2.7
| OK: 391903/391904 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 391903/391903
[ 5] XISeditEventFits version 2.1
| OK: 391903/391903
GET: 391903
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
391904 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
391904 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
391904 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
391903 : XISputPixelQuality:ENTRY
391903 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
391903 : XISeditEventFits:ENTRY
391903 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4272
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 391903 391903 SINGLE
XIS:RAWX 4 4 391903 391903 SINGLE
XIS:RAWY 4 4 391903 783806 SINGLE
XIS:ACTX 4 4 391903 783806 SINGLE
XIS:ACTY 4 4 391903 783806 SINGLE
XIS:DETX 4 4 391903 391903 SINGLE
XIS:DETY 4 4 391903 391903 SINGLE
XIS:FOCX 4 4 391903 391903 SINGLE
XIS:FOCY 4 4 391903 391903 SINGLE
XIS:X 4 4 391903 391903 SINGLE
XIS:Y 4 4 391903 391903 SINGLE
XIS:STATUS 4 4 783806 391903 SINGLE
XIS:PHAS 36 36 391903 391903 SINGLE
XIS:PHANOCTI 4 4 391903 391903 SINGLE
XIS:PHA 4 4 391903 391903 SINGLE
XIS:PI 4 4 391903 391903 SINGLE
XIS:GRADE 4 4 391903 391903 SINGLE
XIS:P_OUTER_MOST 4 4 391903 391903 SINGLE
XIS:SUM_OUTER_MOST 4 4 391903 391903 SINGLE
XIS:AEDATE 4 4 391903 391903 FAMILY
XIS:EXPTIME 4 4 391903 391903 FAMILY
XIS:EXPTIME_AETIME 8 8 391903 391903 SINGLE
XIS:S_TIME 8 8 391903 391903 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 391903 391903 FAMILY
XIS:EVENT_SEQ_NO 4 4 391903 391903 SINGLE
XIS:TIME 8 8 391903 783806 SINGLE
XIS:EXP_CENT_AETIME 8 8 391903 391903 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 391905 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 0.262 0.221 0.483 3.35
[ 2] XISreadExp 0.084 0.208 0.292 2.02
[ 3] XISreadEvent 6.122 0.257 6.379 44.22
[ 4] XISputPixelQuality 0.526 0.206 0.732 5.07
[ 5] XISeditEventFits 5.782 0.741 6.523 45.22
(others) 0.010 0.007 0.017 0.12
--------------------------------------------------------------------------
TOTAL 12.786 1.640 14.426 100.00
-> xisputpixelquality successful on ae403025010xi3_0_3x3n066.sff.infile,f,a,"ae403025010xi3_0_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,"ae403025010xi3_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 ae403025010xi3_0_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi3_0_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 96-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 'ae403025010xi3_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 ae403025010xi3_0.hk, S3_VDCHK18_CAL, nrows=2135
nvalid=2097 nrej=38 time=267272679.4 - 267334925.4 [s]
AE-temp: average=15.896 sigma=1.431 min=12.706 max=20.031 [degC]
Event... 1 (0)
... 0% ( 0 / 391903 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 10% ( 39190 / 391903 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 20% ( 78380 / 391903 events )
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 30% ( 117570 / 391903 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
... 40% ( 156760 / 391903 events )
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
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reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 96-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 195950 / 391903 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 235140 / 391903 events )
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 274330 / 391903 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 313520 / 391903 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 352710 / 391903 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
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reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 391903 / 391903 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileTmkZgG-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 391905
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 391904/391905
[ 2] XISreadExp version 1.6
| OK: 391904/391904
[ 3] XISreadEvent version 2.7
| OK: 391903/391904 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 391903/391903
[ 5] XIStrailCorrection version 3.1
| OK: 391903/391903
[ 6] XISctiCorrection version 3.4
| OK: 391903/391903
[ 7] XISgrade version 3.3
| OK: 391903/391903
[ 8] XISpha2pi version 3.2
| OK: 391903/391903
[ 9] XISeditEventFits version 2.1
| OK: 391903/391903
GET: 391903
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
391904 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
391904 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
391904 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
391903 : XISpreparePHASCORR:ENTRY
391903 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
391903 : XIStrailCorrection:ENTRY
391903 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
391903 : XISctiCorrection:ENTRY
391903 : XISctiCorrection:OK
1 : XISgrade:BEGIN
391903 : XISgrade:ENTRY
391903 : XISgrade:OK
1 : XISpha2pi:BEGIN
391903 : XISpha2pi:ENTRY
391903 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
391903 : XISeditEventFits:ENTRY
391903 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4464
------------------------------------------------------------------------------
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 1567618 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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 391903 1959515 SINGLE
XIS:RAWX 4 4 391903 1175709 SINGLE
XIS:RAWY 4 4 391903 783806 SINGLE
XIS:ACTX 4 4 391903 391903 SINGLE
XIS:ACTY 4 4 391903 1175709 SINGLE
XIS:DETX 4 4 391903 391903 SINGLE
XIS:DETY 4 4 391903 391903 SINGLE
XIS:FOCX 4 4 391903 391903 SINGLE
XIS:FOCY 4 4 391903 391903 SINGLE
XIS:X 4 4 391903 391903 SINGLE
XIS:Y 4 4 391903 391903 SINGLE
XIS:STATUS 4 4 391903 391903 SINGLE
XIS:PHAS 36 36 391903 783806 SINGLE
XIS:PHANOCTI 4 4 783806 391903 SINGLE
XIS:PHA 4 4 783806 391903 SINGLE
XIS:PI 4 4 783806 391903 SINGLE
XIS:GRADE 4 4 783806 391903 SINGLE
XIS:P_OUTER_MOST 4 4 391903 783806 SINGLE
XIS:SUM_OUTER_MOST 4 4 391903 783806 SINGLE
XIS:AEDATE 4 4 391903 391903 FAMILY
XIS:EXPTIME 4 4 391903 391903 FAMILY
XIS:EXPTIME_AETIME 8 8 391903 391903 SINGLE
XIS:S_TIME 8 8 391903 391903 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 391903 391903 FAMILY
XIS:EVENT_SEQ_NO 4 4 391903 391903 SINGLE
XIS:TIME 8 8 391903 1959515 SINGLE
XIS:EXP_CENT_AETIME 8 8 391903 391903 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 391905 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 783806 391903 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 391903 391903 SINGLE
XIS:PHASCORR 72 72 1175709 1175709 SINGLE
XIS:PHA:DOUBLE 8 8 391903 391903 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 0.368 0.207 0.575 1.53
[ 2] XISreadExp 0.116 0.180 0.296 0.79
[ 3] XISreadEvent 6.583 0.302 6.885 18.38
[ 4] XISpreparePHASCORR 0.344 0.200 0.544 1.45
[ 5] XIStrailCorrection 0.830 0.217 1.047 2.80
[ 6] XISctiCorrection 13.494 5.509 19.003 50.74
[ 7] XISgrade 1.355 0.206 1.561 4.17
[ 8] XISpha2pi 0.859 0.209 1.068 2.85
[ 9] XISeditEventFits 5.962 0.488 6.450 17.22
(others) 0.020 0.006 0.026 0.07
--------------------------------------------------------------------------
TOTAL 29.930 7.524 37.454 100.00
-> xispi successful on ae403025010xi3_0_3x3n066.sff.infile,f,a,"ae403025010xi3_0_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae403025010xi3_0_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 ae403025010xi3_0_3x3n066.sff
OUTFILE ae403025010xi3_0_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae403025010xi3_0_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 / 391903 events )
frame time jump, t=267273644.940 - 267274716.939 by 1072.000 s
frame time jump, t=267274860.939 - 267275124.939 by 264.000 s
... 10% ( 39190 / 391903 events )
frame time jump, t=267279812.939 - 267280460.939 by 648.000 s
frame time jump, t=267280604.939 - 267280868.939 by 264.000 s
... 20% ( 78380 / 391903 events )
... 30% ( 117570 / 391903 events )
... 40% ( 156760 / 391903 events )
... 50% ( 195950 / 391903 events )
... 60% ( 235140 / 391903 events )
... 70% ( 274330 / 391903 events )
... 80% ( 313520 / 391903 events )
frame time jump, t=267317652.933 - 267318636.933 by 984.000 s
frame time jump, t=267318780.933 - 267319044.933 by 264.000 s
... 90% ( 352710 / 391903 events )
frame time jump, t=267323460.933 - 267324756.932 by 1296.000 s
frame time jump, t=267324900.932 - 267325164.932 by 264.000 s
... 100% ( 391903 / 391903 events )
XIScheckEventNo: GTI file 'ae403025010xi3_0_3x3n066.gti' created
N_FRAMES = 6107 / number of frames in the input event file
N_TESTED = 6107 / number of non-zero frames tested
N_PASSED = 6107 / number of frames passed the test
N_T_JUMP = 8 / number of frames detected time jump
N_SATURA = 0 / number of frames telemetry saturated
T_TESTED = 48856.000000 / exposure of non-zero frames tested
T_PASSED = 48856.000000 / exposure of frames passed the test
T_T_JUMP = 5055.999255 / loss of exposure due to time jump
T_SATURA = 0.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 6108
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 6107/6108
[ 2] XISreadExp version 1.6
| OK: 6107/6107
[ 3] XISreadEvent version 2.7 <------- LOOP: 391903
| OK: 391903/398010 -------> SKIP: 6107
[ 4] XIScheckEventNo version 1.2
| OK: 391903/391903
GET: 391903
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
6107 : XISreadFrame:ENTRY
6107 : XISreadFrame:OK
1 : XISreadExp:BEGIN
6107 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
398010 : XISreadEvent:ENTRY
398009 : XISreadEvent:OK
6107 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
391903 : XIScheckEventNo:ENTRY
391903 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6384
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 6107 398010 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 6107 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 6107 398010 SINGLE
XIS:FRAMES:S_TIME 8 8 6107 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 6107 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 6107 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 6107 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 6107 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 6107 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 6107 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 6107 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 6107 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 6107 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 6107 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 6107 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 6107 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 6107 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 6107 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 6107 6107 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 6107 0 SINGLE
XIS:FRAMES:BIAS 16 16 6107 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 6107 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 6107 0 SINGLE
XIS:FRAMES:AEDATE 4 4 6107 398010 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 6107 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 6107 391903 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 6107 6107 SINGLE
XIS:FRAMES:TIME 8 8 6107 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 391903 391903 SINGLE
XIS:RAWX 4 4 391903 0 SINGLE
XIS:RAWY 4 4 391903 0 SINGLE
XIS:ACTX 4 4 391903 0 SINGLE
XIS:ACTY 4 4 391903 0 SINGLE
XIS:DETX 4 4 391903 0 SINGLE
XIS:DETY 4 4 391903 0 SINGLE
XIS:FOCX 4 4 391903 0 SINGLE
XIS:FOCY 4 4 391903 0 SINGLE
XIS:X 4 4 391903 0 SINGLE
XIS:Y 4 4 391903 0 SINGLE
XIS:STATUS 4 4 391903 0 SINGLE
XIS:PHAS 36 36 391903 0 SINGLE
XIS:PHANOCTI 4 4 391903 0 SINGLE
XIS:PHA 4 4 391903 0 SINGLE
XIS:PI 4 4 391903 0 SINGLE
XIS:GRADE 4 4 391903 0 SINGLE
XIS:P_OUTER_MOST 4 4 391903 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 391903 0 SINGLE
XIS:AEDATE 4 4 391903 398009 FAMILY
XIS:EXPTIME 4 4 391903 398009 FAMILY
XIS:EXPTIME_AETIME 8 8 391903 0 SINGLE
XIS:S_TIME 8 8 391903 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 391903 398009 FAMILY
XIS:EVENT_SEQ_NO 4 4 391903 398009 SINGLE
XIS:TIME 8 8 391903 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 391903 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 1.409 0.012 1.421 13.60
[ 2] XISreadExp 0.004 0.006 0.010 0.10
[ 3] XISreadEvent 8.380 0.238 8.618 82.49
[ 4] XIScheckEventNo 0.174 0.207 0.381 3.65
(others) 0.012 0.006 0.018 0.17
--------------------------------------------------------------------------
TOTAL 9.978 0.469 10.447 100.00
-> xisgtigen successful on ae403025010xi3_0_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 ae403025010xi3_0_5x5n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae403025010xi3_0_5x5n066.fff.infile,f,a,"ae403025010xi3_0_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,"ae403025010.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 ae403025010xi3_0_5x5n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi3_0_5x5n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae403025010.tim
EDITMODE = 0
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae403025010.tim[TIME_PACKETS_SEL]' ...
ntpk=14
aste_ti2time: reading 'ae403025010.tim[DP_TIMC]' ...
ndpk=54582, t=267096909.576 - 267507771.520
aste_ti2time: reading 'ae403025010.tim[DP_DHU_AVG]' ...
1: t0=267098485,N0=2287599616,Y=40718897/38969544,f=16777218.623,j=1,d=0
2: t0=267160405,N0=2541223936,Y=38969544/38844791,f=16777218.354,j=0,d=0
3: t0=267166517,N0=2566258688,Y=38844791/38726577,f=16777218.263,j=0,d=0
4: t0=267172565,N0=2591031296,Y=38726577/38499833,f=16777218.322,j=0,d=0
5: t0=267184757,N0=2640969728,Y=38499833/37173070,f=16777218.445,j=0,d=0
6: t0=267246709,N0=2894725120,Y=37173070/37026362,f=16777218.111,j=0,d=0
7: t0=267252821,N0=2919759872,Y=37026362/36892319,f=16777218.356,j=0,d=0
8: t0=267258933,N0=2944794624,Y=36892319/36645710,f=16777218.381,j=0,d=0
9: t0=267271061,N0=2994470912,Y=36645710/34854548,f=16777218.677,j=0,d=0
10: t0=267326901,N0=3223191552,Y=34854548/34686201,f=16777218.886,j=0,d=0
11: t0=267333013,N0=3248226304,Y=34686201/34465792,f=16777218.966,j=0,d=0
12: t0=267339061,N0=3272998912,Y=34465792/34251565,f=16777218.594,j=0,d=0
13: t0=267345237,N0=3298295808,Y=34251565/29667254,f=16777218.482,j=0,d=0
14: t0=267499509,N0=3930193920,Y=29667254/29460810,f=16777218.638,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 51024 events )
... 10% ( 5102 / 51024 events )
... 20% ( 10204 / 51024 events )
... 30% ( 15306 / 51024 events )
... 40% ( 20408 / 51024 events )
... 50% ( 25510 / 51024 events )
... 60% ( 30612 / 51024 events )
... 70% ( 35714 / 51024 events )
... 80% ( 40816 / 51024 events )
... 90% ( 45918 / 51024 events )
... 100% ( 51024 / 51024 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 267326588.932182 / time start
TSTOP = 267334908.930904 / time stop
TELAPASE = 8319.998723 / elapsed time = TSTOP - TSTART
ONTIME = 6591.999016 / on time = sum of all GTIs
LIVETIME = 6591.999016 / on-source time corrected for CCD exposure
EXPOSURE = 6591.999016 / exposure time
xisEventFitsUtil: rename ./file69k526-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 51026
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 51025/51026
[ 2] XISreadExp version 1.6
| OK: 51025/51025
[ 3] XISreadEvent version 2.7
| OK: 51024/51025 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 51024/51024
[ 5] XISeditEventFits version 2.1
| OK: 51024/51024
GET: 51024
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
51025 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
51025 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
51025 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
51024 : XIStime:ENTRY
51024 : XIStime:OK
1 : XISeditEventFits:BEGIN
51024 : XISeditEventFits:ENTRY
51024 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4304
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 51024 51024 SINGLE
XIS:RAWX 4 4 51024 51024 SINGLE
XIS:RAWY 4 4 51024 51024 SINGLE
XIS:ACTX 4 4 51024 51024 SINGLE
XIS:ACTY 4 4 51024 51024 SINGLE
XIS:DETX 4 4 51024 51024 SINGLE
XIS:DETY 4 4 51024 51024 SINGLE
XIS:FOCX 4 4 51024 51024 SINGLE
XIS:FOCY 4 4 51024 51024 SINGLE
XIS:X 4 4 51024 51024 SINGLE
XIS:Y 4 4 51024 51024 SINGLE
XIS:STATUS 4 4 51024 51024 SINGLE
XIS:PHAS 100 100 51024 51024 SINGLE
XIS:PHANOCTI 4 4 51024 51024 SINGLE
XIS:PHA 4 4 51024 51024 SINGLE
XIS:PI 4 4 51024 51024 SINGLE
XIS:GRADE 4 4 51024 51024 SINGLE
XIS:AEDATE 4 4 102048 51024 FAMILY
XIS:EXPTIME 4 4 51024 102048 FAMILY
XIS:EXPTIME_AETIME 8 8 102048 51024 SINGLE
XIS:S_TIME 8 8 51024 102048 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 51024 102048 FAMILY
XIS:EVENT_SEQ_NO 4 4 51024 51024 SINGLE
XIS:TIME 8 8 102048 51024 SINGLE
XIS:EXP_CENT_AETIME 8 8 102048 51024 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 51026 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.047 0.031 0.078 3.80
[ 2] XISreadExp 0.009 0.032 0.041 2.00
[ 3] XISreadEvent 0.810 0.041 0.851 41.49
[ 4] XIStime 0.207 0.032 0.239 11.65
[ 5] XISeditEventFits 0.745 0.081 0.826 40.27
(others) 0.007 0.009 0.016 0.78
--------------------------------------------------------------------------
TOTAL 1.825 0.226 2.051 100.00
-> xistime successful on ae403025010xi3_0_5x5n066.sff.infile,f,a,"ae403025010xi3_0_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,"ae403025010.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 ae403025010xi3_0_5x5n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi3_0_5x5n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae403025010.att'
SKYREF (7.1951, 59.3013, 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 = 7.19510 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 728.59 / 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 = 59.30130 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 740.04 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 51024 events )
... 10% ( 5102 / 51024 events )
... 20% ( 10204 / 51024 events )
... 30% ( 15306 / 51024 events )
... 40% ( 20408 / 51024 events )
... 50% ( 25510 / 51024 events )
... 60% ( 30612 / 51024 events )
... 70% ( 35714 / 51024 events )
... 80% ( 40816 / 51024 events )
... 90% ( 45918 / 51024 events )
... 100% ( 51024 / 51024 events )
xisEventFitsUtil: rename ./file8snWLo-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 51026
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 51025/51026
[ 2] XISreadExp version 1.6
| OK: 51025/51025
[ 3] XISreadEvent version 2.7
| OK: 51024/51025 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 51024/51024
[ 5] XISeditEventFits version 2.1
| OK: 51024/51024
GET: 51024
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
51025 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
51025 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
51025 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
51024 : XIScoord:ENTRY
51024 : XIScoord:OK
1 : XISeditEventFits:BEGIN
51024 : XISeditEventFits:ENTRY
51024 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4304
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 51024 102048 SINGLE
XIS:RAWX 4 4 51024 102048 SINGLE
XIS:RAWY 4 4 51024 102048 SINGLE
XIS:ACTX 4 4 102048 51024 SINGLE
XIS:ACTY 4 4 102048 51024 SINGLE
XIS:DETX 4 4 102048 51024 SINGLE
XIS:DETY 4 4 102048 51024 SINGLE
XIS:FOCX 4 4 102048 51024 SINGLE
XIS:FOCY 4 4 102048 51024 SINGLE
XIS:X 4 4 102048 51024 SINGLE
XIS:Y 4 4 102048 51024 SINGLE
XIS:STATUS 4 4 51024 51024 SINGLE
XIS:PHAS 100 100 51024 51024 SINGLE
XIS:PHANOCTI 4 4 51024 51024 SINGLE
XIS:PHA 4 4 51024 51024 SINGLE
XIS:PI 4 4 51024 51024 SINGLE
XIS:GRADE 4 4 51024 51024 SINGLE
XIS:AEDATE 4 4 51024 51024 FAMILY
XIS:EXPTIME 4 4 51024 51024 FAMILY
XIS:EXPTIME_AETIME 8 8 51024 51024 SINGLE
XIS:S_TIME 8 8 51024 51024 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 51024 51024 FAMILY
XIS:EVENT_SEQ_NO 4 4 51024 51024 SINGLE
XIS:TIME 8 8 51024 102048 SINGLE
XIS:EXP_CENT_AETIME 8 8 51024 51024 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 51026 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.039 0.020 0.059 2.59
[ 2] XISreadExp 0.016 0.041 0.057 2.50
[ 3] XISreadEvent 0.832 0.046 0.878 38.51
[ 4] XIScoord 0.377 0.028 0.405 17.76
[ 5] XISeditEventFits 0.762 0.097 0.859 37.68
(others) 0.013 0.009 0.022 0.96
--------------------------------------------------------------------------
TOTAL 2.039 0.241 2.280 100.00
-> xiscoord successful on ae403025010xi3_0_5x5n066.sff.infile,f,a,"ae403025010xi3_0_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 ae403025010xi3_0_5x5n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi3_0_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 / 51024 events )
... 10% ( 5102 / 51024 events )
... 20% ( 10204 / 51024 events )
... 30% ( 15306 / 51024 events )
... 40% ( 20408 / 51024 events )
... 50% ( 25510 / 51024 events )
... 60% ( 30612 / 51024 events )
... 70% ( 35714 / 51024 events )
... 80% ( 40816 / 51024 events )
... 90% ( 45918 / 51024 events )
... 100% ( 51024 / 51024 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 746 1.46
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 2053 4.02
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 439 0.86
B8 256 1PIX_FROM_SEGBOUNDARY 301 0.59
B9 512 SCI_3rd_TRAILING_ROW 652 1.28
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 2318 4.54
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 752 1.47
B16 65536 CALMASK 6081 11.92
B17 131072 SEGBOUNDARY 954 1.87
B18 262144 SCI_2nd_TRAILING_ROW 687 1.35
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 3119 6.11
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 5224 10.24
B29 536870912 SCI_TRAILING_ROW 5834 11.43
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 17 0.03
### 0 CLEAN_ZERO 27893 54.67
--------------------------------------------------------------
+++ 4294967295 SUM 57070 111.85
::: 524287 SAFE(B0-18) 37760 74.00
>>> 4294967295 TOTAL 51024 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileNQBcya-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 51026
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 51025/51026
[ 2] XISreadExp version 1.6
| OK: 51025/51025
[ 3] XISreadEvent version 2.7
| OK: 51024/51025 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 51024/51024
[ 5] XISeditEventFits version 2.1
| OK: 51024/51024
GET: 51024
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
51025 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
51025 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
51025 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
51024 : XISputPixelQuality:ENTRY
51024 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
51024 : XISeditEventFits:ENTRY
51024 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 185/5000
buffer size : 120000
buffer used : 4304
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 51024 51024 SINGLE
XIS:RAWX 4 4 51024 51024 SINGLE
XIS:RAWY 4 4 51024 102048 SINGLE
XIS:ACTX 4 4 51024 102048 SINGLE
XIS:ACTY 4 4 51024 102048 SINGLE
XIS:DETX 4 4 51024 51024 SINGLE
XIS:DETY 4 4 51024 51024 SINGLE
XIS:FOCX 4 4 51024 51024 SINGLE
XIS:FOCY 4 4 51024 51024 SINGLE
XIS:X 4 4 51024 51024 SINGLE
XIS:Y 4 4 51024 51024 SINGLE
XIS:STATUS 4 4 102048 51024 SINGLE
XIS:PHAS 100 100 51024 51024 SINGLE
XIS:PHANOCTI 4 4 51024 51024 SINGLE
XIS:PHA 4 4 51024 51024 SINGLE
XIS:PI 4 4 51024 51024 SINGLE
XIS:GRADE 4 4 51024 51024 SINGLE
XIS:AEDATE 4 4 51024 51024 FAMILY
XIS:EXPTIME 4 4 51024 51024 FAMILY
XIS:EXPTIME_AETIME 8 8 51024 51024 SINGLE
XIS:S_TIME 8 8 51024 51024 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 51024 51024 FAMILY
XIS:EVENT_SEQ_NO 4 4 51024 51024 SINGLE
XIS:TIME 8 8 51024 102048 SINGLE
XIS:EXP_CENT_AETIME 8 8 51024 51024 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 51026 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 0.037 0.034 0.071 3.68
[ 2] XISreadExp 0.016 0.023 0.039 2.02
[ 3] XISreadEvent 0.784 0.035 0.819 42.50
[ 4] XISputPixelQuality 0.104 0.040 0.144 7.47
[ 5] XISeditEventFits 0.742 0.094 0.836 43.38
(others) 0.012 0.006 0.018 0.93
--------------------------------------------------------------------------
TOTAL 1.695 0.232 1.927 100.00
-> xisputpixelquality successful on ae403025010xi3_0_5x5n066.sff.infile,f,a,"ae403025010xi3_0_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,"ae403025010xi3_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 ae403025010xi3_0_5x5n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi3_0_5x5n066.sff'
ANL: *** XISpreparePHASCORR show parameter ***
FLAG_RAND_PHAS0 YES
RAND_SEED 7
RAND_SKIP 0
ANL: *** XIStrailCorrection show parameter ***
ENABLE_TRCOR YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading CHARGETRAIL at 37-th row
ANL: *** XISctiCorrection show parameter ***
ENABLE_CTICOR YES
ENABLE_SCICTI YES
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SERIAL_CTI at 1-th row
reading PARALLEL_CTI_SCI at 97-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae403025010xi3_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 ae403025010xi3_0.hk, S3_VDCHK18_CAL, nrows=2135
nvalid=2097 nrej=38 time=267272679.4 - 267334925.4 [s]
AE-temp: average=15.896 sigma=1.431 min=12.706 max=20.031 [degC]
Event... 1 (0)
... 0% ( 0 / 51024 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 10% ( 5102 / 51024 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 20% ( 10204 / 51024 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 30% ( 15306 / 51024 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 40% ( 20408 / 51024 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 50% ( 25510 / 51024 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 60% ( 30612 / 51024 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 70% ( 35714 / 51024 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 80% ( 40816 / 51024 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 90% ( 45918 / 51024 events )
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
reading PARALLEL_CTI_SCI at 97-th row
... 100% ( 51024 / 51024 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./fileNULHqn-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 51026
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 51025/51026
[ 2] XISreadExp version 1.6
| OK: 51025/51025
[ 3] XISreadEvent version 2.7
| OK: 51024/51025 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 51024/51024
[ 5] XIStrailCorrection version 3.1
| OK: 51024/51024
[ 6] XISctiCorrection version 3.4
| OK: 51024/51024
[ 7] XISgrade version 3.3
| OK: 51024/51024
[ 8] XISpha2pi version 3.2
| OK: 51024/51024
[ 9] XISeditEventFits version 2.1
| OK: 51024/51024
GET: 51024
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
51025 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
51025 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
51025 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
51024 : XISpreparePHASCORR:ENTRY
51024 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
51024 : XIStrailCorrection:ENTRY
51024 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
51024 : XISctiCorrection:ENTRY
51024 : XISctiCorrection:OK
1 : XISgrade:BEGIN
51024 : XISgrade:ENTRY
51024 : XISgrade:OK
1 : XISpha2pi:BEGIN
51024 : XISpha2pi:ENTRY
51024 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
51024 : XISeditEventFits:ENTRY
51024 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 189/5000
buffer size : 120000
buffer used : 4752
------------------------------------------------------------------------------
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 204102 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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 4 SINGLE
XIS:TSTOP 8 8 1 4 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 51024 255120 SINGLE
XIS:RAWX 4 4 51024 153072 SINGLE
XIS:RAWY 4 4 51024 102048 SINGLE
XIS:ACTX 4 4 51024 51024 SINGLE
XIS:ACTY 4 4 51024 153072 SINGLE
XIS:DETX 4 4 51024 51024 SINGLE
XIS:DETY 4 4 51024 51024 SINGLE
XIS:FOCX 4 4 51024 51024 SINGLE
XIS:FOCY 4 4 51024 51024 SINGLE
XIS:X 4 4 51024 51024 SINGLE
XIS:Y 4 4 51024 51024 SINGLE
XIS:STATUS 4 4 51024 51024 SINGLE
XIS:PHAS 100 100 51024 102048 SINGLE
XIS:PHANOCTI 4 4 102048 51024 SINGLE
XIS:PHA 4 4 102048 51024 SINGLE
XIS:PI 4 4 102048 51024 SINGLE
XIS:GRADE 4 4 102048 51024 SINGLE
XIS:AEDATE 4 4 51024 51024 FAMILY
XIS:EXPTIME 4 4 51024 51024 FAMILY
XIS:EXPTIME_AETIME 8 8 51024 51024 SINGLE
XIS:S_TIME 8 8 51024 51024 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 51024 51024 FAMILY
XIS:EVENT_SEQ_NO 4 4 51024 51024 SINGLE
XIS:TIME 8 8 51024 255120 SINGLE
XIS:EXP_CENT_AETIME 8 8 51024 51024 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 51026 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 200 200 102048 51024 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 51024 51024 SINGLE
XIS:PHASCORR 200 200 153072 153072 SINGLE
XIS:PHA:DOUBLE 8 8 51024 51024 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 0.040 0.031 0.071 1.24
[ 2] XISreadExp 0.019 0.025 0.044 0.77
[ 3] XISreadEvent 0.842 0.040 0.882 15.43
[ 4] XISpreparePHASCORR 0.049 0.022 0.071 1.24
[ 5] XIStrailCorrection 0.120 0.035 0.155 2.71
[ 6] XISctiCorrection 2.480 0.788 3.268 57.18
[ 7] XISgrade 0.201 0.028 0.229 4.01
[ 8] XISpha2pi 0.112 0.024 0.136 2.38
[ 9] XISeditEventFits 0.754 0.080 0.834 14.59
(others) 0.020 0.005 0.025 0.44
--------------------------------------------------------------------------
TOTAL 4.636 1.078 5.714 100.00
-> xispi successful on ae403025010xi3_0_5x5n066.sff.infile,f,a,"ae403025010xi3_0_5x5n066.sff",,,"Name of input event fits file" outfile,f,a,"ae403025010xi3_0_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 ae403025010xi3_0_5x5n066.sff
OUTFILE ae403025010xi3_0_5x5n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae403025010xi3_0_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 / 51024 events )
... 10% ( 5102 / 51024 events )
... 20% ( 10204 / 51024 events )
... 30% ( 15306 / 51024 events )
... 40% ( 20408 / 51024 events )
frame time jump, t=267329396.932 - 267330860.932 by 1464.000 s
frame time jump, t=267331004.931 - 267331268.931 by 264.000 s
... 50% ( 25510 / 51024 events )
... 60% ( 30612 / 51024 events )
... 70% ( 35714 / 51024 events )
... 80% ( 40816 / 51024 events )
... 90% ( 45918 / 51024 events )
... 100% ( 51024 / 51024 events )
XIScheckEventNo: GTI file 'ae403025010xi3_0_5x5n066.gti' created
N_FRAMES = 824 / number of frames in the input event file
N_TESTED = 824 / number of non-zero frames tested
N_PASSED = 824 / number of frames passed the test
N_T_JUMP = 2 / number of frames detected time jump
N_SATURA = 0 / number of frames telemetry saturated
T_TESTED = 6592.000000 / exposure of non-zero frames tested
T_PASSED = 6592.000000 / exposure of frames passed the test
T_T_JUMP = 1727.999706 / loss of exposure due to time jump
T_SATURA = 0.000000 / exposure of frames telemetry saturated
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 825
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 824/825
[ 2] XISreadExp version 1.6
| OK: 824/824
[ 3] XISreadEvent version 2.7 <------- LOOP: 51024
| OK: 51024/51848 -------> SKIP: 824
[ 4] XIScheckEventNo version 1.2
| OK: 51024/51024
GET: 51024
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
824 : XISreadFrame:ENTRY
824 : XISreadFrame:OK
1 : XISreadExp:BEGIN
824 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
51848 : XISreadEvent:ENTRY
51847 : XISreadEvent:OK
824 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
51024 : XIScheckEventNo:ENTRY
51024 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 242/5000
buffer size : 120000
buffer used : 6416
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 0 SINGLE
XIS:DEC_NOM 8 8 1 0 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:LIVETIME 8 8 1 0 SINGLE
XIS:EXPOSURE 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 0 SINGLE
XIS:MJDREFF 8 8 1 0 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 17 17 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:NEVENTS 4 4 1 0 SINGLE
XIS:MJD-OBS 8 8 1 0 SINGLE
XIS:USER 7 7 1 0 SINGLE
XIS:FILIN001 26 26 1 0 SINGLE
XIS:TIMEZERO 8 8 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS: 4 4 1 0 SINGLE
XIS:FRAMES 4 4 1 3 SINGLE
XIS:FRAMES:WINDOW_OPTION 4 4 824 51848 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 824 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 824 51848 SINGLE
XIS:FRAMES:S_TIME 8 8 824 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 824 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 824 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 824 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 824 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 824 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 824 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 824 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 824 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 824 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 824 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 824 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 824 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 824 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 824 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 824 824 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 824 0 SINGLE
XIS:FRAMES:BIAS 16 16 824 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 824 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 824 0 SINGLE
XIS:FRAMES:AEDATE 4 4 824 51848 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 824 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 824 51024 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 824 824 SINGLE
XIS:FRAMES:TIME 8 8 824 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 51024 51024 SINGLE
XIS:RAWX 4 4 51024 0 SINGLE
XIS:RAWY 4 4 51024 0 SINGLE
XIS:ACTX 4 4 51024 0 SINGLE
XIS:ACTY 4 4 51024 0 SINGLE
XIS:DETX 4 4 51024 0 SINGLE
XIS:DETY 4 4 51024 0 SINGLE
XIS:FOCX 4 4 51024 0 SINGLE
XIS:FOCY 4 4 51024 0 SINGLE
XIS:X 4 4 51024 0 SINGLE
XIS:Y 4 4 51024 0 SINGLE
XIS:STATUS 4 4 51024 0 SINGLE
XIS:PHAS 100 100 51024 0 SINGLE
XIS:PHANOCTI 4 4 51024 0 SINGLE
XIS:PHA 4 4 51024 0 SINGLE
XIS:PI 4 4 51024 0 SINGLE
XIS:GRADE 4 4 51024 0 SINGLE
XIS:AEDATE 4 4 51024 51847 FAMILY
XIS:EXPTIME 4 4 51024 51847 FAMILY
XIS:EXPTIME_AETIME 8 8 51024 0 SINGLE
XIS:S_TIME 8 8 51024 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 51024 51847 FAMILY
XIS:EVENT_SEQ_NO 4 4 51024 51847 SINGLE
XIS:TIME 8 8 51024 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 51024 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 0.215 0.002 0.217 15.93
[ 2] XISreadExp 0.002 0.001 0.003 0.22
[ 3] XISreadEvent 1.034 0.033 1.067 78.34
[ 4] XIScheckEventNo 0.030 0.027 0.057 4.18
(others) 0.010 0.008 0.018 1.32
--------------------------------------------------------------------------
TOTAL 1.291 0.071 1.362 100.00
-> xisgtigen successful on ae403025010xi3_0_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 ae403025010xi0_0_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae403025010xi0_0_dun066.fff.infile,f,a,"ae403025010xi0_0_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,"ae403025010.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 ae403025010xi0_0_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi0_0_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae403025010.att'
SKYREF (7.1951, 59.3013, 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 / 5538 events )
... 10% ( 553 / 5538 events )
... 20% ( 1106 / 5538 events )
... 30% ( 1659 / 5538 events )
... 40% ( 2212 / 5538 events )
... 50% ( 2765 / 5538 events )
... 60% ( 3318 / 5538 events )
... 70% ( 3871 / 5538 events )
... 80% ( 4424 / 5538 events )
... 90% ( 4977 / 5538 events )
... 100% ( 5538 / 5538 events )
xisEventFitsUtil: rename ./filesrjqYG-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 5540
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 5539/5540
[ 2] XISreadExp version 1.6
| OK: 5539/5539
[ 3] XISreadEvent version 2.7
| OK: 5538/5539 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 5538/5538
[ 5] XISeditEventFits version 2.1
| OK: 5538/5538
GET: 5538
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
5539 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
5539 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
5539 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
5538 : XIScoord:ENTRY
5538 : XIScoord:OK
1 : XISeditEventFits:BEGIN
5538 : XISeditEventFits:ENTRY
5538 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 149/5000
buffer size : 120000
buffer used : 3728
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 35 35 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 5538 11076 SINGLE
XIS:PPUX 4 4 5538 11076 SINGLE
XIS:PPUY 4 4 5538 11076 SINGLE
XIS:RAWX 4 4 11076 5538 SINGLE
XIS:RAWY 4 4 11076 5538 SINGLE
XIS:ACTX 4 4 11076 5538 SINGLE
XIS:ACTY 4 4 11076 5538 SINGLE
XIS:DETX 4 4 11076 5538 SINGLE
XIS:DETY 4 4 11076 5538 SINGLE
XIS:PHAS 4 4 5538 5538 SINGLE
XIS:AEDATE 4 4 5538 5538 FAMILY
XIS:EXPTIME 4 4 5538 5538 FAMILY
XIS:EXPTIME_AETIME 8 8 5538 5538 SINGLE
XIS:S_TIME 8 8 5538 5538 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 5538 5538 FAMILY
XIS:EVENT_SEQ_NO 4 4 5538 5538 SINGLE
XIS:TIME 8 8 5538 11076 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 5540 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.006 0.002 0.008 3.62
[ 2] XISreadExp 0.001 0.003 0.004 1.81
[ 3] XISreadEvent 0.064 0.003 0.067 30.32
[ 4] XIScoord 0.034 0.005 0.039 17.65
[ 5] XISeditEventFits 0.072 0.008 0.080 36.20
(others) 0.015 0.008 0.023 10.41
--------------------------------------------------------------------------
TOTAL 0.192 0.029 0.221 100.00
-> xiscoord successful on ae403025010xi0_0_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 ae403025010xi1_0_dun069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae403025010xi1_0_dun069.fff.infile,f,a,"ae403025010xi1_0_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,"ae403025010.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 ae403025010xi1_0_dun069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi1_0_dun069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae403025010.att'
SKYREF (7.1951, 59.3013, 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 / 6290 events )
... 10% ( 629 / 6290 events )
... 20% ( 1258 / 6290 events )
... 30% ( 1887 / 6290 events )
... 40% ( 2516 / 6290 events )
... 50% ( 3145 / 6290 events )
... 60% ( 3774 / 6290 events )
... 70% ( 4403 / 6290 events )
... 80% ( 5032 / 6290 events )
... 90% ( 5661 / 6290 events )
... 100% ( 6290 / 6290 events )
xisEventFitsUtil: rename ./fileavtYIl-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 6292
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 6291/6292
[ 2] XISreadExp version 1.6
| OK: 6291/6291
[ 3] XISreadEvent version 2.7
| OK: 6290/6291 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 6290/6290
[ 5] XISeditEventFits version 2.1
| OK: 6290/6290
GET: 6290
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
6291 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
6291 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
6291 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
6290 : XIScoord:ENTRY
6290 : XIScoord:OK
1 : XISeditEventFits:BEGIN
6290 : XISeditEventFits:ENTRY
6290 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 149/5000
buffer size : 120000
buffer used : 3728
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 35 35 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 6290 12580 SINGLE
XIS:PPUX 4 4 6290 12580 SINGLE
XIS:PPUY 4 4 6290 12580 SINGLE
XIS:RAWX 4 4 12580 6290 SINGLE
XIS:RAWY 4 4 12580 6290 SINGLE
XIS:ACTX 4 4 12580 6290 SINGLE
XIS:ACTY 4 4 12580 6290 SINGLE
XIS:DETX 4 4 12580 6290 SINGLE
XIS:DETY 4 4 12580 6290 SINGLE
XIS:PHAS 4 4 6290 6290 SINGLE
XIS:AEDATE 4 4 6290 6290 FAMILY
XIS:EXPTIME 4 4 6290 6290 FAMILY
XIS:EXPTIME_AETIME 8 8 6290 6290 SINGLE
XIS:S_TIME 8 8 6290 6290 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 6290 6290 FAMILY
XIS:EVENT_SEQ_NO 4 4 6290 6290 SINGLE
XIS:TIME 8 8 6290 12580 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 6292 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 5.49
[ 2] XISreadExp 0.000 0.001 0.001 0.42
[ 3] XISreadEvent 0.076 0.002 0.078 32.91
[ 4] XIScoord 0.028 0.006 0.034 14.35
[ 5] XISeditEventFits 0.084 0.005 0.089 37.55
(others) 0.014 0.008 0.022 9.28
--------------------------------------------------------------------------
TOTAL 0.210 0.027 0.237 100.00
-> xiscoord successful on ae403025010xi1_0_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 ae403025010xi3_0_dun066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae403025010xi3_0_dun066.fff.infile,f,a,"ae403025010xi3_0_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,"ae403025010.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 ae403025010xi3_0_dun066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae403025010xi3_0_dun066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae403025010.att'
SKYREF (7.1951, 59.3013, 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 / 5416 events )
... 10% ( 541 / 5416 events )
... 20% ( 1082 / 5416 events )
... 30% ( 1623 / 5416 events )
... 40% ( 2164 / 5416 events )
... 50% ( 2705 / 5416 events )
... 60% ( 3246 / 5416 events )
... 70% ( 3787 / 5416 events )
... 80% ( 4328 / 5416 events )
... 90% ( 4869 / 5416 events )
... 100% ( 5416 / 5416 events )
xisEventFitsUtil: rename ./fileptG3US-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 5418
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 5417/5418
[ 2] XISreadExp version 1.6
| OK: 5417/5417
[ 3] XISreadEvent version 2.7
| OK: 5416/5417 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 5416/5416
[ 5] XISeditEventFits version 2.1
| OK: 5416/5416
GET: 5416
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
5417 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
5417 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
5417 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
5416 : XIScoord:ENTRY
5416 : XIScoord:OK
1 : XISeditEventFits:BEGIN
5416 : XISeditEventFits:ENTRY
5416 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 149/5000
buffer size : 120000
buffer used : 3728
------------------------------------------------------------------------------
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 13 13 1 0 SINGLE
XIS:OBJECT 10 10 1 0 SINGLE
XIS:OBS_REM 2 2 1 0 SINGLE
XIS:NOM_PNT 5 5 1 0 SINGLE
XIS:RA_OBJ 8 8 1 0 SINGLE
XIS:DEC_OBJ 8 8 1 0 SINGLE
XIS:RA_PNT 8 8 1 0 SINGLE
XIS:DEC_PNT 8 8 1 0 SINGLE
XIS:RA_NOM 8 8 1 1 SINGLE
XIS:DEC_NOM 8 8 1 1 SINGLE
XIS:PA_NOM 8 8 1 0 SINGLE
XIS:MEAN_EA1 8 8 1 0 SINGLE
XIS:MEAN_EA2 8 8 1 0 SINGLE
XIS:MEAN_EA3 8 8 1 0 SINGLE
XIS:RADECSYS 5 5 1 0 SINGLE
XIS:EQUINOX 4 4 1 0 SINGLE
XIS:DATE-OBS 21 21 1 0 SINGLE
XIS:DATE-END 21 21 1 0 SINGLE
XIS:TSTART 8 8 1 0 SINGLE
XIS:TSTOP 8 8 1 0 SINGLE
XIS:TELAPSE 8 8 1 0 SINGLE
XIS:ONTIME 8 8 1 0 SINGLE
XIS:TIMESYS 4 4 1 0 SINGLE
XIS:MJDREFI 4 4 1 1 SINGLE
XIS:MJDREFF 8 8 1 1 SINGLE
XIS:TIMEREF 7 7 1 0 SINGLE
XIS:TIMEUNIT 3 3 1 0 SINGLE
XIS:TASSIGN 11 11 1 0 SINGLE
XIS:CLOCKAPP 4 4 1 0 SINGLE
XIS:TIMEDEL 8 8 1 0 SINGLE
XIS:TIMEPIXR 8 8 1 0 SINGLE
XIS:TIERRELA 4 4 1 0 SINGLE
XIS:TIERABSO 4 4 1 0 SINGLE
XIS:HDUCLASS 6 6 1 0 SINGLE
XIS:HDUCLAS1 8 8 1 0 SINGLE
XIS:HDUCLAS2 5 5 1 0 SINGLE
XIS:TLM_FILE 19 19 1 0 SINGLE
XIS:TIM_FILE 17 17 1 0 SINGLE
XIS:ATT_FILE 17 17 1 0 SINGLE
XIS:ORB_FILE 2 2 1 0 SINGLE
XIS:LEAPFILE 21 21 1 0 SINGLE
XIS:TELDEF 29 29 1 0 SINGLE
XIS:CREATOR 35 35 1 0 SINGLE
XIS:ORIGIN 11 11 1 0 SINGLE
XIS:DATE 21 21 1 0 SINGLE
XIS:CHECKSUM 18 18 1 0 SINGLE
XIS:DATASUM 12 12 1 0 SINGLE
XIS:SEQPNUM 4 4 1 0 SINGLE
XIS:PROCVER 10 10 1 0 SINGLE
XIS:MK1STVER 19 19 1 0 SINGLE
XIS:SOFTVER 44 44 1 0 SINGLE
XIS:CALDBVER 49 49 1 0 SINGLE
XIS:FRAMES 4 4 1 2 SINGLE
XIS:EXPNAMENOS 4 4 1 2 SINGLE
XIS:EXPOSURES 4 4 1 1 SINGLE
XIS:SEGMENT 4 4 5416 10832 SINGLE
XIS:PPUX 4 4 5416 10832 SINGLE
XIS:PPUY 4 4 5416 10832 SINGLE
XIS:RAWX 4 4 10832 5416 SINGLE
XIS:RAWY 4 4 10832 5416 SINGLE
XIS:ACTX 4 4 10832 5416 SINGLE
XIS:ACTY 4 4 10832 5416 SINGLE
XIS:DETX 4 4 10832 5416 SINGLE
XIS:DETY 4 4 10832 5416 SINGLE
XIS:PHAS 4 4 5416 5416 SINGLE
XIS:AEDATE 4 4 5416 5416 FAMILY
XIS:EXPTIME 4 4 5416 5416 FAMILY
XIS:EXPTIME_AETIME 8 8 5416 5416 SINGLE
XIS:S_TIME 8 8 5416 5416 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 5416 5416 FAMILY
XIS:EVENT_SEQ_NO 4 4 5416 5416 SINGLE
XIS:TIME 8 8 5416 10832 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 5418 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.006 0.003 0.009 4.15
[ 2] XISreadExp 0.001 0.000 0.001 0.46
[ 3] XISreadEvent 0.056 0.007 0.063 29.03
[ 4] XIScoord 0.031 0.004 0.035 16.13
[ 5] XISeditEventFits 0.075 0.012 0.087 40.09
(others) 0.016 0.006 0.022 10.14
--------------------------------------------------------------------------
TOTAL 0.185 0.032 0.217 100.00
-> xiscoord successful on ae403025010xi3_0_dun066.sff.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae403025010xi0_0_3x3n066a_cl.evt
GRADE=0:0 2:4 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 x13 x
2.672729390000000E+08 2.672736540000000E+08 2.672751096906147E+08 2.672765770000000E+08 2.672786936896097E+08 2.672798190000000E+08 2.672808570000000E+08 2.672823256891393E+08 2.672844490000000E+08 2.672880750000000E+08 2.672902040000000E+08 2.672938250000000E+08 2.672959580000000E+08 2.672995740000000E+08 2.673017130000000E+08 2.673053240000000E+08 2.673074680000000E+08 2.673110730000000E+08 2.673132220000000E+08 2.673168220000000E+08 2.673190216839640E+08 2.673225720000000E+08 2.673251460000000E+08 2.673283210000000E+08 2.673312490000000E+08 2.673340710000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi0_0_3x3n066z_uf.evt
10% completed
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100% completed
Total Good Bad: Region Time Phase Grade Cut
376192 63486 0 119578 0 0 193128
Writing events file
63486 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
376192 63486 0 119578 0 0 193128
in 31364. seconds
-> Running cleansis.datafile,s,h,"ae403025010xi0_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 : 63486
cleaning chip # 0
Hot pixels & counts : 6 2517
Flickering pixels iter, pixels & cnts : 1 11 46
cleaning chip # 1
Hot pixels & counts : 2 2154
Flickering pixels iter, pixels & cnts : 1 11 44
cleaning chip # 2
Hot pixels & counts : 1 516
Flickering pixels iter, pixels & cnts : 1 12 58
cleaning chip # 3
Hot pixels & counts : 2 198
Flickering pixels iter, pixels & cnts : 1 6 24
Number of pixels rejected : 51
Number of (internal) image counts : 63486
Number of image cts rejected (N, %) : 5557 8.75
By chip : 0 1 2 3
Pixels rejected : 17 13 13 8
Image counts : 5412 13077 42177 2820
Image cts rejected: 2563 2198 574 222
Image cts rej (%) : 47.36 16.81 1.36 7.87
Total counts : 5412 13077 42177 2820
Total cts rejected: 2563 2198 574 222
Total cts rej (%) : 47.36 16.81 1.36 7.87
Number of clean counts accepted : 57929
Number of rejected pixels : 51
-> cleansis successful on ae403025010xi0_0_3x3n066a_cl.evt.GRADE=0:0 2:4 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 x13 x
2.672729390000000E+08 2.672736540000000E+08 2.672751096906147E+08 2.672765770000000E+08 2.672786936896097E+08 2.672798190000000E+08 2.672808570000000E+08 2.672823256891393E+08 2.672844490000000E+08 2.672880750000000E+08 2.672902040000000E+08 2.672938250000000E+08 2.672959580000000E+08 2.672995740000000E+08 2.673017130000000E+08 2.673053240000000E+08 2.673074680000000E+08 2.673110730000000E+08 2.673132220000000E+08 2.673168220000000E+08 2.673190216839640E+08 2.673225720000000E+08 2.673251460000000E+08 2.673283210000000E+08 2.673312490000000E+08 2.673340710000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi0_0_5x5n066z_uf.evt
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100% completed
Total Good Bad: Region Time Phase Grade Cut
47320 9725 0 16830 0 0 20765
Writing events file
9725 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
47320 9725 0 16830 0 0 20765
in 4534.1 seconds
-> Running cleansis.datafile,s,h,"ae403025010xi0_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 : 9725
cleaning chip # 0
Hot pixels & counts : 5 540
cleaning chip # 1
Hot pixels & counts : 2 447
cleaning chip # 2
Hot pixels & counts : 1 189
Flickering pixels iter, pixels & cnts : 1 3 10
cleaning chip # 3
Hot pixels & counts : 1 13
Flickering pixels iter, pixels & cnts : 1 1 4
Number of pixels rejected : 13
Number of (internal) image counts : 9725
Number of image cts rejected (N, %) : 1203 12.37
By chip : 0 1 2 3
Pixels rejected : 5 2 4 2
Image counts : 964 2044 6344 373
Image cts rejected: 540 447 199 17
Image cts rej (%) : 56.02 21.87 3.14 4.56
Total counts : 964 2044 6344 373
Total cts rejected: 540 447 199 17
Total cts rej (%) : 56.02 21.87 3.14 4.56
Number of clean counts accepted : 8522
Number of rejected pixels : 13
-> cleansis successful on ae403025010xi0_0_5x5n066a_cl.evt.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae403025010xi1_0_3x3n069b_cl.evt
GRADE=0:0 2:4 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 x13 x
2.672729390000000E+08 2.672736540000000E+08 2.672751096906147E+08 2.672765770000000E+08 2.672786936896097E+08 2.672798190000000E+08 2.672808570000000E+08 2.672823256891393E+08 2.672844490000000E+08 2.672880750000000E+08 2.672902040000000E+08 2.672938250000000E+08 2.672959580000000E+08 2.672995740000000E+08 2.673017130000000E+08 2.673053240000000E+08 2.673074680000000E+08 2.673110730000000E+08 2.673132220000000E+08 2.673168220000000E+08 2.673190216839640E+08 2.673225720000000E+08 2.673251460000000E+08 2.673283210000000E+08 2.673312490000000E+08 2.673340710000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi1_0_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
698049 178675 0 218000 0 0 301374
Writing events file
178675 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
698049 178675 0 218000 0 0 301374
in 31364. seconds
-> Running cleansis.datafile,s,h,"ae403025010xi1_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 : 178675
Total counts in chip images : 178672
cleaning chip # 0
Hot pixels & counts : 27 16672
Flickering pixels iter, pixels & cnts : 1 547 4343
Flickering pixels iter, pixels & cnts : 2 11 50
Flickering pixels iter, pixels & cnts : 3 2 7
cleaning chip # 1
Hot pixels & counts : 19 16738
Flickering pixels iter, pixels & cnts : 1 485 4807
Flickering pixels iter, pixels & cnts : 2 14 78
Flickering pixels iter, pixels & cnts : 3 2 13
Flickering pixels iter, pixels & cnts : 4 1 4
cleaning chip # 2
Hot pixels & counts : 15 12279
Flickering pixels iter, pixels & cnts : 1 509 5104
Flickering pixels iter, pixels & cnts : 2 14 59
Flickering pixels iter, pixels & cnts : 3 1 3
cleaning chip # 3
Hot pixels & counts : 24 11711
Flickering pixels iter, pixels & cnts : 1 512 4407
Flickering pixels iter, pixels & cnts : 2 7 24
Number of pixels rejected : 2190
Number of (internal) image counts : 178672
Number of image cts rejected (N, %) : 76299 42.70
By chip : 0 1 2 3
Pixels rejected : 587 521 539 543
Image counts : 32729 52988 65578 27377
Image cts rejected: 21072 21640 17445 16142
Image cts rej (%) : 64.38 40.84 26.60 58.96
Total counts : 32730 52989 65578 27378
Total cts rejected: 21072 21640 17445 16142
Total cts rej (%) : 64.38 40.84 26.60 58.96
Number of clean counts accepted : 102376
Number of rejected pixels : 2190
-> cleansis successful on ae403025010xi1_0_3x3n069b_cl.evt.GRADE=0:0 2:4 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 x13 x
2.672729390000000E+08 2.672736540000000E+08 2.672751096906147E+08 2.672765770000000E+08 2.672786936896097E+08 2.672798190000000E+08 2.672808570000000E+08 2.672823256891393E+08 2.672844490000000E+08 2.672880750000000E+08 2.672902040000000E+08 2.672938250000000E+08 2.672959580000000E+08 2.672995740000000E+08 2.673017130000000E+08 2.673053240000000E+08 2.673074680000000E+08 2.673110730000000E+08 2.673132220000000E+08 2.673168220000000E+08 2.673190216839640E+08 2.673225720000000E+08 2.673251460000000E+08 2.673283210000000E+08 2.673312490000000E+08 2.673340710000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi1_0_5x5n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
100761 24477 0 36714 0 0 39570
Writing events file
24477 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
100761 24477 0 36714 0 0 39570
in 4534.1 seconds
-> Running cleansis.datafile,s,h,"ae403025010xi1_0_5x5n069b_cl.evt",,,"Name of SIS file to be cleaned (input)" outfile,s,h,"cleansis.tmp",,,"Name for cleaned event file (output)" cellsize,i,h,5,,,"Poisson clean cell size (odd integer > 1; e.g. 5)" logprob,r,h,-5.3,,,"Log Poisson probability threshold (e.g. -5.3)" bthresh,i,h,3,,,"Zero background threshold ( > )" phamin,i,h,0,,,"Minimum PHA value for clean (inclusive)" phamax,i,h,4095,,,"Maximum PHA value for clean (inclusive)" iterate,b,h,yes,,,"Iterate the Poisson clean?" zeroedge,b,h,no,,,"Zero chip edge pixels?" dirtysis,b,h,no,,,"Write out the DIRTY (not clean) pixels to the output file?" verbose,b,h,no,,,"Write informational messages to screen?" summary,b,h,yes,,,"Write result summary to screen?" rawxcol,s,h,"RAWX",,,"Raw X coordinate column name" rawycol,s,h,"RAWY",,,"Raw Y coordinate column name" chipcol,s,h,"SEGMENT",,,"Chip column name" timecol,s,h,"TIME",,,"Time column name" detxcol,s,h,"DETX",,,"Det X coordinate column name" detycol,s,h,"DETY",,,"Det Y coordinate column name" skyxcol,s,h,"X",,,"Sky X coordinate column name" skyycol,s,h,"Y",,,"Sky Y coordinate column name" phacol,s,h,"PHA",,,"PHA column name" clobber,b,h,no,,,"Overwrite existing output file? (CAUTION!)" mode,s,h,"hl",,,""-> stdout output from cleansis
CLEANSIS_V1.7
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
Poisson clean cell size : 5
Poisson probability threshold : 0.501E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : T
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
Total counts in chip images : 24477
cleaning chip # 0
Hot pixels & counts : 21 1843
Flickering pixels iter, pixels & cnts : 1 44 218
cleaning chip # 1
Hot pixels & counts : 18 2324
Flickering pixels iter, pixels & cnts : 1 66 392
cleaning chip # 2
Hot pixels & counts : 14 1639
Flickering pixels iter, pixels & cnts : 1 44 296
cleaning chip # 3
Hot pixels & counts : 20 3485
Flickering pixels iter, pixels & cnts : 1 48 243
Flickering pixels iter, pixels & cnts : 2 1 3
Number of pixels rejected : 276
Number of (internal) image counts : 24477
Number of image cts rejected (N, %) : 10443 42.66
By chip : 0 1 2 3
Pixels rejected : 65 84 58 69
Image counts : 3646 6955 8692 5184
Image cts rejected: 2061 2716 1935 3731
Image cts rej (%) : 56.53 39.05 22.26 71.97
Total counts : 3646 6955 8692 5184
Total cts rejected: 2061 2716 1935 3731
Total cts rej (%) : 56.53 39.05 22.26 71.97
Number of clean counts accepted : 14034
Number of rejected pixels : 276
-> cleansis successful on ae403025010xi1_0_5x5n069b_cl.evt.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae403025010xi3_0_3x3n066a_cl.evt
GRADE=0:0 2:4 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 x13 x
2.672729390000000E+08 2.672736540000000E+08 2.672751096906147E+08 2.672765770000000E+08 2.672786936896097E+08 2.672798190000000E+08 2.672808570000000E+08 2.672823256891393E+08 2.672844490000000E+08 2.672880750000000E+08 2.672902040000000E+08 2.672938250000000E+08 2.672959580000000E+08 2.672995740000000E+08 2.673017130000000E+08 2.673053240000000E+08 2.673074680000000E+08 2.673110730000000E+08 2.673132220000000E+08 2.673168220000000E+08 2.673190216839640E+08 2.673225720000000E+08 2.673251460000000E+08 2.673283210000000E+08 2.673312490000000E+08 2.673340710000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi3_0_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
391903 66347 0 115048 0 0 210508
Writing events file
66347 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
391903 66347 0 115048 0 0 210508
in 31364. seconds
-> Running cleansis.datafile,s,h,"ae403025010xi3_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 : 66347
cleaning chip # 0
Hot pixels & counts : 4 4963
Flickering pixels iter, pixels & cnts : 1 8 47
cleaning chip # 1
Hot pixels & counts : 1 2099
Flickering pixels iter, pixels & cnts : 1 9 41
cleaning chip # 2
Hot pixels & counts : 1 138
Flickering pixels iter, pixels & cnts : 1 18 108
cleaning chip # 3
Hot pixels & counts : 1 13
Flickering pixels iter, pixels & cnts : 1 5 31
Number of pixels rejected : 47
Number of (internal) image counts : 66347
Number of image cts rejected (N, %) : 7440 11.21
By chip : 0 1 2 3
Pixels rejected : 12 10 19 6
Image counts : 7883 15253 40784 2427
Image cts rejected: 5010 2140 246 44
Image cts rej (%) : 63.55 14.03 0.60 1.81
Total counts : 7883 15253 40784 2427
Total cts rejected: 5010 2140 246 44
Total cts rej (%) : 63.55 14.03 0.60 1.81
Number of clean counts accepted : 58907
Number of rejected pixels : 47
-> cleansis successful on ae403025010xi3_0_3x3n066a_cl.evt.GRADE=0:0 2:4 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 x13 x
2.672729390000000E+08 2.672736540000000E+08 2.672751096906147E+08 2.672765770000000E+08 2.672786936896097E+08 2.672798190000000E+08 2.672808570000000E+08 2.672823256891393E+08 2.672844490000000E+08 2.672880750000000E+08 2.672902040000000E+08 2.672938250000000E+08 2.672959580000000E+08 2.672995740000000E+08 2.673017130000000E+08 2.673053240000000E+08 2.673074680000000E+08 2.673110730000000E+08 2.673132220000000E+08 2.673168220000000E+08 2.673190216839640E+08 2.673225720000000E+08 2.673251460000000E+08 2.673283210000000E+08 2.673312490000000E+08 2.673340710000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi3_0_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
51024 9316 0 16773 0 0 24935
Writing events file
9316 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
51024 9316 0 16773 0 0 24935
in 4534.1 seconds
-> Running cleansis.datafile,s,h,"ae403025010xi3_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 : 9316
cleaning chip # 0
Hot pixels & counts : 3 362
cleaning chip # 1
Hot pixels & counts : 1 28
Flickering pixels iter, pixels & cnts : 1 1 3
cleaning chip # 2
Hot pixels & counts : 1 119
Flickering pixels iter, pixels & cnts : 1 3 9
cleaning chip # 3
Hot pixels & counts : 0 0
Number of pixels rejected : 9
Number of (internal) image counts : 9316
Number of image cts rejected (N, %) : 521 5.59
By chip : 0 1 2 3
Pixels rejected : 3 2 4 0
Image counts : 781 1942 6238 355
Image cts rejected: 362 31 128 0
Image cts rej (%) : 46.35 1.60 2.05 0.00
Total counts : 781 1942 6238 355
Total cts rejected: 362 31 128 0
Total cts rej (%) : 46.35 1.60 2.05 0.00
Number of clean counts accepted : 8795
Number of rejected pixels : 9
-> cleansis successful on ae403025010xi3_0_5x5n066a_cl.evt.GRADE=0:0 2:4 6:6 STATUS=65536:131071 196608:262143 327680:393215 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
2.672726553162052E+08 2.673349291818777E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi0_0_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
376192 6076 0 0 0 0 370116
Writing events file
6076 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
376192 6076 0 0 0 0 370116
in 48878. seconds
GRADE=0:0 2:4 6:6 STATUS=65536:131071 196608:262143 327680:393215 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
2.672726553162052E+08 2.673349291818777E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi0_0_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
47320 888 0 0 0 0 46432
Writing events file
888 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
47320 888 0 0 0 0 46432
in 6592.0 seconds
GRADE=0:0 2:4 6:6 STATUS=65536:131071 196608:262143 327680:393215 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
2.672726633162040E+08 2.673349171848094E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi1_0_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
698049 19568 0 0 0 0 678481
Writing events file
19568 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
698049 19568 0 0 0 0 678481
in 48558. seconds
GRADE=0:0 2:4 6:6 STATUS=65536:131071 196608:262143 327680:393215 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
2.672726633162040E+08 2.673349171848094E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi1_0_5x5n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
100761 2300 0 0 0 0 98461
Writing events file
2300 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
100761 2300 0 0 0 0 98461
in 6536.0 seconds
GRADE=0:0 2:4 6:6 STATUS=65536:131071 196608:262143 327680:393215 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
2.672726793159575E+08 2.673349251818784E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi3_0_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
391903 7960 0 0 0 0 383943
Writing events file
7960 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
391903 7960 0 0 0 0 383943
in 48854. seconds
GRADE=0:0 2:4 6:6 STATUS=65536:131071 196608:262143 327680:393215 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
2.672726793159575E+08 2.673349251818784E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi3_0_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
51024 826 0 0 0 0 50198
Writing events file
826 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
51024 826 0 0 0 0 50198
in 6592.0 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 x x
-> Running extractor.
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 x8 x
2.672777576900079E+08 2.672780120000000E+08 2.672834770000000E+08 2.672838060000000E+08 2.672892010000000E+08 2.672895530000000E+08 2.672949270000000E+08 2.672953030000000E+08 2.673006570000000E+08 2.673010550000000E+08 2.673063880000000E+08 2.673068070000000E+08 2.673121210000000E+08 2.673125610000000E+08 2.673293260000000E+08 2.673293969317678E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi0_0_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
376192 13310 0 362882 0 0 0
Writing events file
13310 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
376192 13310 0 362882 0 0 0
in 2568.3 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 x x
-> Running extractor.
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 x8 x
2.672777576900079E+08 2.672780120000000E+08 2.672834770000000E+08 2.672838060000000E+08 2.672892010000000E+08 2.672895530000000E+08 2.672949270000000E+08 2.672953030000000E+08 2.673006570000000E+08 2.673010550000000E+08 2.673063880000000E+08 2.673068070000000E+08 2.673121210000000E+08 2.673125610000000E+08 2.673293260000000E+08 2.673293969317678E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi0_0_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
47320 555 0 46765 0 0 0
Writing events file
555 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
47320 555 0 46765 0 0 0
in 70.932 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 x x
-> Running extractor.
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 x8 x
2.672777576900079E+08 2.672780120000000E+08 2.672834770000000E+08 2.672838060000000E+08 2.672892010000000E+08 2.672895530000000E+08 2.672949270000000E+08 2.672953030000000E+08 2.673006570000000E+08 2.673010550000000E+08 2.673063880000000E+08 2.673068070000000E+08 2.673121210000000E+08 2.673125610000000E+08 2.673293260000000E+08 2.673293969317678E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi1_0_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
698049 22945 0 675104 0 0 0
Writing events file
22945 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
698049 22945 0 675104 0 0 0
in 2568.3 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 x x
-> Running extractor.
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 x8 x
2.672777576900079E+08 2.672780120000000E+08 2.672834770000000E+08 2.672838060000000E+08 2.672892010000000E+08 2.672895530000000E+08 2.672949270000000E+08 2.672953030000000E+08 2.673006570000000E+08 2.673010550000000E+08 2.673063880000000E+08 2.673068070000000E+08 2.673121210000000E+08 2.673125610000000E+08 2.673293260000000E+08 2.673293969317678E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi1_0_5x5n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
100761 767 0 99994 0 0 0
Writing events file
767 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
100761 767 0 99994 0 0 0
in 70.932 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 x x
-> Running extractor.
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 x8 x
2.672777576900079E+08 2.672780120000000E+08 2.672834770000000E+08 2.672838060000000E+08 2.672892010000000E+08 2.672895530000000E+08 2.672949270000000E+08 2.672953030000000E+08 2.673006570000000E+08 2.673010550000000E+08 2.673063880000000E+08 2.673068070000000E+08 2.673121210000000E+08 2.673125610000000E+08 2.673293260000000E+08 2.673293969317678E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi3_0_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
391903 12266 0 379637 0 0 0
Writing events file
12266 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
391903 12266 0 379637 0 0 0
in 2568.3 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 x x
-> Running extractor.
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 x8 x
2.672777576900079E+08 2.672780120000000E+08 2.672834770000000E+08 2.672838060000000E+08 2.672892010000000E+08 2.672895530000000E+08 2.672949270000000E+08 2.672953030000000E+08 2.673006570000000E+08 2.673010550000000E+08 2.673063880000000E+08 2.673068070000000E+08 2.673121210000000E+08 2.673125610000000E+08 2.673293260000000E+08 2.673293969317678E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi3_0_5x5n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
51024 602 0 50422 0 0 0
Writing events file
602 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
51024 602 0 50422 0 0 0
in 70.932 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
-> ae403025010hxd_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
-> ae403025010hxd_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 x18 x
2.672729390000000E+08 2.672734730000000E+08 2.672751736903630E+08 2.672771210000000E+08 2.672786936896097E+08 2.672796380000000E+08 2.672809210000000E+08 2.672828660000000E+08 2.672844490000000E+08 2.672886110000000E+08 2.672905380000000E+08 2.672925320000000E+08 2.672929380000000E+08 2.672943560000000E+08 2.672964770000000E+08 2.672983690000000E+08 2.672991320000000E+08 2.673001010000000E+08 2.673023570000000E+08 2.673042820000000E+08 2.673051470000000E+08 2.673058470000000E+08 2.673081680000000E+08 2.673102030000000E+08 2.673111160000000E+08 2.673115930000000E+08 2.673139416846619E+08 2.673162020000000E+08 2.673170376842771E+08 2.673173380000000E+08 2.673196860000000E+08 2.673230840000000E+08 2.673253350000000E+08 2.673256455592580E+08 2.673256695594993E+08 2.673265975593791E+08 2.673266055593779E+08 2.673288295588107E+08 2.673315335586174E+08 2.673315375586169E+08 2.673315415588605E+08 2.673315455586159E+08 2.673315535586149E+08 2.673315615586138E+08 2.673315695586128E+08 2.673316095586076E+08 2.673316135586071E+08 2.673345760000000E+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
Doing file: ae403025010hxd_0_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
8044208 1238905 0 3379152 0 0 3426151
Writing events file
1238905 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
8044208 1238905 0 3379152 0 0 3426151
in 33382. 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
-> ae403025010hxd_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
-> ae403025010hxd_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 x18 x
2.672729390000000E+08 2.672734730000000E+08 2.672751736903630E+08 2.672771210000000E+08 2.672786936896097E+08 2.672796380000000E+08 2.672809210000000E+08 2.672828660000000E+08 2.672844490000000E+08 2.672886110000000E+08 2.672905380000000E+08 2.672925320000000E+08 2.672929380000000E+08 2.672943560000000E+08 2.672964770000000E+08 2.672983690000000E+08 2.672991320000000E+08 2.673001010000000E+08 2.673023570000000E+08 2.673042820000000E+08 2.673051470000000E+08 2.673058470000000E+08 2.673081680000000E+08 2.673102030000000E+08 2.673111160000000E+08 2.673115930000000E+08 2.673139416846619E+08 2.673162020000000E+08 2.673170376842771E+08 2.673173380000000E+08 2.673196860000000E+08 2.673230840000000E+08 2.673253350000000E+08 2.673256455592580E+08 2.673256695594993E+08 2.673265975593791E+08 2.673266055593779E+08 2.673288295588107E+08 2.673315335586174E+08 2.673315375586169E+08 2.673315415588605E+08 2.673315455586159E+08 2.673315535586149E+08 2.673315615586138E+08 2.673315695586128E+08 2.673316095586076E+08 2.673316135586071E+08 2.673345760000000E+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
Doing file: ae403025010hxd_0_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
8044208 21679 0 3379152 0 0 4643377
Writing events file
21679 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
8044208 21679 0 3379152 0 0 4643377
in 33382. 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 x18 x
2.672729390000000E+08 2.672734730000000E+08 2.672751736903630E+08 2.672771210000000E+08 2.672786936896097E+08 2.672796380000000E+08 2.672809210000000E+08 2.672828660000000E+08 2.672844490000000E+08 2.672886110000000E+08 2.672905380000000E+08 2.672925320000000E+08 2.672929380000000E+08 2.672943560000000E+08 2.672964770000000E+08 2.672983690000000E+08 2.672991320000000E+08 2.673001010000000E+08 2.673023570000000E+08 2.673042820000000E+08 2.673051470000000E+08 2.673058470000000E+08 2.673081680000000E+08 2.673102030000000E+08 2.673111160000000E+08 2.673115930000000E+08 2.673139416846619E+08 2.673162020000000E+08 2.673170376842771E+08 2.673173380000000E+08 2.673196860000000E+08 2.673230840000000E+08 2.673253350000000E+08 2.673256455592580E+08 2.673256695594993E+08 2.673265975593791E+08 2.673266055593779E+08 2.673288295588107E+08 2.673315335586174E+08 2.673315375586169E+08 2.673315415588605E+08 2.673315455586159E+08 2.673315535586149E+08 2.673315615586138E+08 2.673315695586128E+08 2.673316095586076E+08 2.673316135586071E+08 2.673345760000000E+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
Doing file: ae403025010hxd_0_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
8044208 125052 0 3379152 0 0 4540004
Writing events file
125052 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
8044208 125052 0 3379152 0 0 4540004
in 33382. 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.
ELV < 0-> gti_extractor_11.tmp x12 x
2.672725340000000E+08 2.672727030000000E+08 2.672773550000000E+08 2.672784610000000E+08 2.672830960000000E+08 2.672842190000000E+08 2.672888376882196E+08 2.672899770000000E+08 2.672945800000000E+08 2.672957350000000E+08 2.673003230000000E+08 2.673014920000000E+08 2.673060660000000E+08 2.673072500000000E+08 2.673118080000000E+08 2.673130070000000E+08 2.673175520000000E+08 2.673187640000000E+08 2.673232950000000E+08 2.673245210000000E+08 2.673290380000000E+08 2.673302770000000E+08 2.673347815578779E+08 2.673350520000000E+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
Doing file: ae403025010hxd_0_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
8044208 1201902 0 6842306 0 0 0
Writing events file
1201902 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
8044208 1201902 0 6842306 0 0 0
in 11942. 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: ae403025010hxd_0_pinno_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
21679 21679 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
21679 21679 0 0 0 0 0
in 33382. seconds
Spectrum has 21679 counts for 0.6494 counts/sec
... written the PHA data Extension
-> Grouping ae403025010hxd_0_pinno_sr.pi.infile,s,h,"ae403025010hxd_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 - 33382. 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 - 127 are single channels ... 128 - 131 are grouped by a factor 2 ... 132 - 132 are single channels ... 133 - 134 are grouped by a factor 2 ... 135 - 137 are single channels ... 138 - 155 are grouped by a factor 2 ... 156 - 157 are single channels ... 158 - 159 are grouped by a factor 2 ... 160 - 160 are single channels ... 161 - 174 are grouped by a factor 2 ... 175 - 177 are grouped by a factor 3 ... 178 - 199 are grouped by a factor 2 ... 200 - 200 are single channels ... 201 - 202 are grouped by a factor 2 ... 203 - 203 are single channels ... 204 - 249 are grouped by a factor 46 ... 250 - 255 are single channels ... --------------------------------------------- ... QUALITY ... ... ------- ... QUALITY ... ------- ... Bad Channels (Channel - Channel) ... --------------------------------------------- ... 250 - 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 ae403025010hxd_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,"ae403025010hxd_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 1 evt file(s) and 1 spec file(s). hxddtcor: event_fname = ae403025010hxd_0_wel_uf.evt hxddtcor: spec = ae403025010hxd_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: process ae403025010hxd_0_pinno_sr.pi ========================== hxddtcor: current exposure = 33382.25 hxddtcor: make pseudo list ae403025010hxd_0_wel_uf.evt (31263.00 sec) EXPOSURE 31263.000000 / 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]= ae403025010hxd_0_wel_uf.evt hxddtcor: save pseudo = no hxddtcor: EXPOSURE changed from 33382.25 to 31263.00 hxddtcor: Live time is 93.7 %. Checksum keywords updated successfully. hxddtcor: process done.-> hxddtcor successful for ae403025010hxd_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 ae403025010hxd_0_pinno_sr.pi;
Warning: RMF CHANTYPE keyword is not consistent with spectrum
1 spectrum in use
Spectral Data File: ae403025010hxd_0_pinno_sr.pi Spectrum 1
Net count rate (cts/s) for Spectrum:1 6.934e-01 +/- 4.710e-03
Assigned to Data Group 1 and Plot Group 1
Noticed Channels: 1-150
Telescope: SUZAKU Instrument: HXD Channel Type: PI
Exposure Time: 3.126e+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: 6 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 ae403025010hxd_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 V709 CAS (Sequence 403025010);
!XSPEC12>setplot com label file Exposure time: 31.3ks;
!XSPEC12>setplot com time off;
!XSPEC12>plot;
!XSPEC12>exit;
XSPEC: quit
!XSPEC12>tclexit
-> Created ae403025010hxd_0_wel_pi.gif.Input sky coordinates: 7.2036000000000E+00, 5.9289400000000E+01 Output pixel coordinates: 7.5350529543480E+02, 7.2739560161984E+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,"ae403025010xi0_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,7.195136814957,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,30.698704777525,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,5.918395326193,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"7.1951",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"59.3013",,,"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,"267272654.000000",,,"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,7.20359717104833,,,"R.A. (J2000) in deg" deltaJ2000,r,a,59.2894015010075,,,"DEC. (J2000) in deg" alphaB1950,r,a,6.50727321360107,,,"R.A. (B1950) in deg" deltaB1950,r,a,59.0130631641305,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00151375130915454,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00486258764677672,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,17.7251363625601,,,"angular difference in arcsec by aberration" l,r,a,120.041658332769,,,"Galactic longitude (deg)" b,r,a,-3.45532873417728,,,"Galactic latitude (deg)" x,r,a,753.51,,,"X value of SKY coorindates (pixel)" y,r,a,727.40,,,"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,753.512081655328,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,727.405707540637,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,742.532702269948,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.492909076853,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,102.532702269948,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.492909076853,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.520898247411859,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-149.998870180691,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.510005204862,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,727.400014270846,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,742.529104718491,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.494986218744,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,944.026104718491,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.494986218744,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.05993548104722,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-4.88285479022387,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.510000000002,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,727.400000000018,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,742.529095700819,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.494991425336,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,483.029095700819,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.994991425336,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,541,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,29,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,31,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.79668033890187,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-169.699954458748,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.510000000002,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,727.400000000018,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,742.529095700819,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.494991425336,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,483.029095700819,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.994991425336,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,482,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,8,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,482,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,482,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.40440446358677,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.233952311097,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.510000000002,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,727.400000000018,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,742.529095700819,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.494991425336,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,486.029095700819,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.994991425336,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,538,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,2,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,538,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,538,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.113733671579756,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-4.3354809603818,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.510000000002,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,727.400000000018,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,742.529095700819,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.494991425336,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,475.029095700819,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.994991425336,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,549,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,37,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,39,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.393199817541051,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,73.5005357141678,,,"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 753.510 (pixel)
Y 727.400 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae403025010xi0_0_3x3n066a_cl.evt+1'
EA1 7.195136814957 (deg)
EA2 30.698704777525 (deg)
EA3 5.918395326193 (deg)
REF_ALPHA 7.1951 (deg) / 0h28m46.8s
REF_DELTA 59.3013 (deg) / +59d18m05s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267272654.000 / 2008-06-20T10:24:13 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 ( 7.2036 , 59.2894 ) [deg] / ( 0h28m48.9s , +59d17m22s )
B1950 ( 6.5073 , 59.0131 ) [deg] / ( 0h26m01.7s , +59d00m47s )
Galactic ( 120.0417 , -3.4553 ) [deg]
Aberration ( -5.4495 , -17.5053 ) [arcsec], Ang.Distance = 17.7251
XRS SKY ( 753.5121 , 727.4057 ) [pixel]
XRS FOC ( 742.5327 , 783.4929 ) [pixel]
XRS DET ( 102.5327 , 143.4929 ) [pixel]
XRS THETA/PHI 0.5209 [arcmin] / -149.9989 [deg]
XRS PIXEL = 8
HXD SKY ( 753.5100 , 727.4000 ) [pixel]
HXD FOC ( 742.5291 , 783.4950 ) [pixel]
HXD DET ( 944.0261 , 783.4950 ) [pixel]
HXD THETA/PHI 3.0599 [arcmin] / -4.8829 [deg]
XIS0 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS0 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS0 DET ( 483.0291 , 515.9950 ) [pixel]
XIS0 ACT ( 541 , 515 ) [pixel]
XIS0 RAW ( 29 , 515 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 31 , 515 ) [pixel]
XIS0 THETA/PHI 1.7967 [arcmin] / -169.7000 [deg]
XIS1 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS1 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS1 DET ( 483.0291 , 520.9950 ) [pixel]
XIS1 ACT ( 520 , 482 ) [pixel]
XIS1 RAW ( 8 , 482 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 482 ) [pixel]
XIS1 THETA/PHI 1.4044 [arcmin] / -143.2340 [deg]
XIS2 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS2 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS2 DET ( 486.0291 , 509.9950 ) [pixel]
XIS2 ACT ( 514 , 538 ) [pixel]
XIS2 RAW ( 2 , 538 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 538 ) [pixel]
XIS2 THETA/PHI 0.1137 [arcmin] / -4.3355 [deg]
XIS3 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS3 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS3 DET ( 475.0291 , 523.9950 ) [pixel]
XIS3 ACT ( 549 , 523 ) [pixel]
XIS3 RAW ( 37 , 523 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 39 , 523 ) [pixel]
XIS3 THETA/PHI 0.3932 [arcmin] / 73.5005 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae403025010xi0_0_3x3n066a_cl.evt_source.reg.tmp circle(753,727,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi0_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
57929 48703 9226 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
57929 48703 9226 0 0 0 0
in 31364. seconds
Spectrum has 48703 counts for 1.553 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi0_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
57929 3723 54206 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
57929 3723 54206 0 0 0 0
in 31364. seconds
Spectrum has 3723 counts for 0.1187 counts/sec
... written the PHA data Extension
-> Creating RMF for ae403025010xi0_0_3x3n066a_sr.piinfile,s,h,"ae403025010xi0_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 ae403025010xi0_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 - 31364. 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 - 110 are grouped by a factor 111 ... 111 - 118 are grouped by a factor 8 ... 119 - 139 are grouped by a factor 7 ... 140 - 144 are grouped by a factor 5 ... 145 - 148 are grouped by a factor 4 ... 149 - 157 are grouped by a factor 9 ... 158 - 164 are grouped by a factor 7 ... 165 - 170 are grouped by a factor 6 ... 171 - 175 are grouped by a factor 5 ... 176 - 183 are grouped by a factor 4 ... 184 - 189 are grouped by a factor 3 ... 190 - 191 are grouped by a factor 2 ... 192 - 194 are grouped by a factor 3 ... 195 - 200 are grouped by a factor 2 ... 201 - 206 are grouped by a factor 3 ... 207 - 210 are grouped by a factor 2 ... 211 - 211 are single channels ... 212 - 227 are grouped by a factor 2 ... 228 - 229 are single channels ... 230 - 233 are grouped by a factor 2 ... 234 - 235 are single channels ... 236 - 237 are grouped by a factor 2 ... 238 - 238 are single channels ... 239 - 240 are grouped by a factor 2 ... 241 - 522 are single channels ... 523 - 524 are grouped by a factor 2 ... 525 - 537 are single channels ... 538 - 539 are grouped by a factor 2 ... 540 - 586 are single channels ... 587 - 588 are grouped by a factor 2 ... 589 - 607 are single channels ... 608 - 609 are grouped by a factor 2 ... 610 - 611 are single channels ... 612 - 613 are grouped by a factor 2 ... 614 - 618 are single channels ... 619 - 622 are grouped by a factor 2 ... 623 - 623 are single channels ... 624 - 625 are grouped by a factor 2 ... 626 - 626 are single channels ... 627 - 628 are grouped by a factor 2 ... 629 - 629 are single channels ... 630 - 631 are grouped by a factor 2 ... 632 - 632 are single channels ... 633 - 636 are grouped by a factor 2 ... 637 - 637 are single channels ... 638 - 641 are grouped by a factor 2 ... 642 - 642 are single channels ... 643 - 644 are grouped by a factor 2 ... 645 - 645 are single channels ... 646 - 649 are grouped by a factor 2 ... 650 - 650 are single channels ... 651 - 654 are grouped by a factor 2 ... 655 - 656 are single channels ... 657 - 664 are grouped by a factor 2 ... 665 - 666 are single channels ... 667 - 668 are grouped by a factor 2 ... 669 - 669 are single channels ... 670 - 671 are grouped by a factor 2 ... 672 - 672 are single channels ... 673 - 674 are grouped by a factor 2 ... 675 - 678 are single channels ... 679 - 680 are grouped by a factor 2 ... 681 - 684 are single channels ... 685 - 686 are grouped by a factor 2 ... 687 - 689 are single channels ... 690 - 691 are grouped by a factor 2 ... 692 - 694 are single channels ... 695 - 700 are grouped by a factor 2 ... 701 - 701 are single channels ... 702 - 705 are grouped by a factor 2 ... 706 - 707 are single channels ... 708 - 709 are grouped by a factor 2 ... 710 - 710 are single channels ... 711 - 712 are grouped by a factor 2 ... 713 - 713 are single channels ... 714 - 715 are grouped by a factor 2 ... 716 - 716 are single channels ... 717 - 718 are grouped by a factor 2 ... 719 - 722 are single channels ... 723 - 724 are grouped by a factor 2 ... 725 - 725 are single channels ... 726 - 727 are grouped by a factor 2 ... 728 - 732 are single channels ... 733 - 734 are grouped by a factor 2 ... 735 - 738 are single channels ... 739 - 742 are grouped by a factor 2 ... 743 - 743 are single channels ... 744 - 745 are grouped by a factor 2 ... 746 - 747 are single channels ... 748 - 763 are grouped by a factor 2 ... 764 - 766 are single channels ... 767 - 768 are grouped by a factor 2 ... 769 - 769 are single channels ... 770 - 771 are grouped by a factor 2 ... 772 - 773 are single channels ... 774 - 783 are grouped by a factor 2 ... 784 - 786 are single channels ... 787 - 788 are grouped by a factor 2 ... 789 - 791 are single channels ... 792 - 795 are grouped by a factor 2 ... 796 - 796 are single channels ... 797 - 804 are grouped by a factor 2 ... 805 - 806 are single channels ... 807 - 812 are grouped by a factor 2 ... 813 - 813 are single channels ... 814 - 819 are grouped by a factor 2 ... 820 - 822 are single channels ... 823 - 824 are grouped by a factor 2 ... 825 - 827 are single channels ... 828 - 829 are grouped by a factor 2 ... 830 - 830 are single channels ... 831 - 832 are grouped by a factor 2 ... 833 - 835 are single channels ... 836 - 837 are grouped by a factor 2 ... 838 - 838 are single channels ... 839 - 840 are grouped by a factor 2 ... 841 - 841 are single channels ... 842 - 845 are grouped by a factor 2 ... 846 - 852 are single channels ... 853 - 854 are grouped by a factor 2 ... 855 - 858 are single channels ... 859 - 860 are grouped by a factor 2 ... 861 - 861 are single channels ... 862 - 863 are grouped by a factor 2 ... 864 - 865 are single channels ... 866 - 869 are grouped by a factor 2 ... 870 - 870 are single channels ... 871 - 872 are grouped by a factor 2 ... 873 - 874 are single channels ... 875 - 878 are grouped by a factor 2 ... 879 - 879 are single channels ... 880 - 883 are grouped by a factor 2 ... 884 - 884 are single channels ... 885 - 886 are grouped by a factor 2 ... 887 - 887 are single channels ... 888 - 893 are grouped by a factor 2 ... 894 - 899 are single channels ... 900 - 903 are grouped by a factor 2 ... 904 - 904 are single channels ... 905 - 906 are grouped by a factor 2 ... 907 - 908 are single channels ... 909 - 910 are grouped by a factor 2 ... 911 - 911 are single channels ... 912 - 915 are grouped by a factor 2 ... 916 - 916 are single channels ... 917 - 918 are grouped by a factor 2 ... 919 - 920 are single channels ... 921 - 922 are grouped by a factor 2 ... 923 - 923 are single channels ... 924 - 927 are grouped by a factor 2 ... 928 - 928 are single channels ... 929 - 934 are grouped by a factor 2 ... 935 - 936 are single channels ... 937 - 942 are grouped by a factor 2 ... 943 - 943 are single channels ... 944 - 947 are grouped by a factor 2 ... 948 - 948 are single channels ... 949 - 950 are grouped by a factor 2 ... 951 - 951 are single channels ... 952 - 961 are grouped by a factor 2 ... 962 - 963 are single channels ... 964 - 965 are grouped by a factor 2 ... 966 - 966 are single channels ... 967 - 970 are grouped by a factor 2 ... 971 - 971 are single channels ... 972 - 975 are grouped by a factor 2 ... 976 - 977 are single channels ... 978 - 983 are grouped by a factor 2 ... 984 - 984 are single channels ... 985 - 986 are grouped by a factor 2 ... 987 - 987 are single channels ... 988 - 997 are grouped by a factor 2 ... 998 - 998 are single channels ... 999 - 1002 are grouped by a factor 2 ... 1003 - 1003 are single channels ... 1004 - 1005 are grouped by a factor 2 ... 1006 - 1006 are single channels ... 1007 - 1010 are grouped by a factor 2 ... 1011 - 1013 are single channels ... 1014 - 1015 are grouped by a factor 2 ... 1016 - 1016 are single channels ... 1017 - 1018 are grouped by a factor 2 ... 1019 - 1019 are single channels ... 1020 - 1021 are grouped by a factor 2 ... 1022 - 1022 are single channels ... 1023 - 1044 are grouped by a factor 2 ... 1045 - 1046 are single channels ... 1047 - 1052 are grouped by a factor 2 ... 1053 - 1054 are single channels ... 1055 - 1060 are grouped by a factor 2 ... 1061 - 1061 are single channels ... 1062 - 1065 are grouped by a factor 2 ... 1066 - 1066 are single channels ... 1067 - 1068 are grouped by a factor 2 ... 1069 - 1069 are single channels ... 1070 - 1099 are grouped by a factor 2 ... 1100 - 1100 are single channels ... 1101 - 1108 are grouped by a factor 2 ... 1109 - 1110 are single channels ... 1111 - 1118 are grouped by a factor 2 ... 1119 - 1119 are single channels ... 1120 - 1121 are grouped by a factor 2 ... 1122 - 1122 are single channels ... 1123 - 1134 are grouped by a factor 2 ... 1135 - 1135 are single channels ... 1136 - 1149 are grouped by a factor 2 ... 1150 - 1151 are single channels ... 1152 - 1153 are grouped by a factor 2 ... 1154 - 1154 are single channels ... 1155 - 1156 are grouped by a factor 2 ... 1157 - 1157 are single channels ... 1158 - 1159 are grouped by a factor 2 ... 1160 - 1160 are single channels ... 1161 - 1164 are grouped by a factor 2 ... 1165 - 1165 are single channels ... 1166 - 1169 are grouped by a factor 2 ... 1170 - 1170 are single channels ... 1171 - 1172 are grouped by a factor 2 ... 1173 - 1173 are single channels ... 1174 - 1177 are grouped by a factor 2 ... 1178 - 1178 are single channels ... 1179 - 1210 are grouped by a factor 2 ... 1211 - 1211 are single channels ... 1212 - 1213 are grouped by a factor 2 ... 1214 - 1214 are single channels ... 1215 - 1224 are grouped by a factor 2 ... 1225 - 1225 are single channels ... 1226 - 1229 are grouped by a factor 2 ... 1230 - 1230 are single channels ... 1231 - 1248 are grouped by a factor 2 ... 1249 - 1249 are single channels ... 1250 - 1273 are grouped by a factor 2 ... 1274 - 1274 are single channels ... 1275 - 1292 are grouped by a factor 2 ... 1293 - 1293 are single channels ... 1294 - 1331 are grouped by a factor 2 ... 1332 - 1332 are single channels ... 1333 - 1386 are grouped by a factor 2 ... 1387 - 1389 are grouped by a factor 3 ... 1390 - 1393 are grouped by a factor 2 ... 1394 - 1396 are grouped by a factor 3 ... 1397 - 1432 are grouped by a factor 2 ... 1433 - 1433 are single channels ... 1434 - 1455 are grouped by a factor 2 ... 1456 - 1458 are grouped by a factor 3 ... 1459 - 1470 are grouped by a factor 2 ... 1471 - 1473 are grouped by a factor 3 ... 1474 - 1475 are grouped by a factor 2 ... 1476 - 1478 are grouped by a factor 3 ... 1479 - 1506 are grouped by a factor 2 ... 1507 - 1509 are grouped by a factor 3 ... 1510 - 1517 are grouped by a factor 2 ... 1518 - 1520 are grouped by a factor 3 ... 1521 - 1536 are grouped by a factor 2 ... 1537 - 1539 are grouped by a factor 3 ... 1540 - 1545 are grouped by a factor 2 ... 1546 - 1548 are grouped by a factor 3 ... 1549 - 1554 are grouped by a factor 2 ... 1555 - 1560 are grouped by a factor 3 ... 1561 - 1564 are grouped by a factor 2 ... 1565 - 1565 are single channels ... 1566 - 1573 are grouped by a factor 2 ... 1574 - 1576 are grouped by a factor 3 ... 1577 - 1586 are grouped by a factor 2 ... 1587 - 1589 are grouped by a factor 3 ... 1590 - 1595 are grouped by a factor 2 ... 1596 - 1598 are grouped by a factor 3 ... 1599 - 1604 are grouped by a factor 2 ... 1605 - 1610 are grouped by a factor 3 ... 1611 - 1622 are grouped by a factor 2 ... 1623 - 1625 are grouped by a factor 3 ... 1626 - 1633 are grouped by a factor 2 ... 1634 - 1636 are grouped by a factor 3 ... 1637 - 1638 are grouped by a factor 2 ... 1639 - 1641 are grouped by a factor 3 ... 1642 - 1645 are grouped by a factor 2 ... 1646 - 1648 are grouped by a factor 3 ... 1649 - 1650 are grouped by a factor 2 ... 1651 - 1653 are grouped by a factor 3 ... 1654 - 1659 are grouped by a factor 2 ... 1660 - 1662 are grouped by a factor 3 ... 1663 - 1668 are grouped by a factor 2 ... 1669 - 1677 are grouped by a factor 3 ... 1678 - 1681 are grouped by a factor 2 ... 1682 - 1687 are grouped by a factor 3 ... 1688 - 1695 are grouped by a factor 2 ... 1696 - 1698 are grouped by a factor 3 ... 1699 - 1706 are grouped by a factor 2 ... 1707 - 1709 are grouped by a factor 3 ... 1710 - 1715 are grouped by a factor 2 ... 1716 - 1718 are grouped by a factor 3 ... 1719 - 1728 are grouped by a factor 2 ... 1729 - 1731 are grouped by a factor 3 ... 1732 - 1737 are grouped by a factor 2 ... 1738 - 1740 are grouped by a factor 3 ... 1741 - 1794 are grouped by a factor 2 ... 1795 - 1797 are grouped by a factor 3 ... 1798 - 1801 are grouped by a factor 2 ... 1802 - 1807 are grouped by a factor 3 ... 1808 - 1809 are grouped by a factor 2 ... 1810 - 1815 are grouped by a factor 3 ... 1816 - 1817 are grouped by a factor 2 ... 1818 - 1823 are grouped by a factor 3 ... 1824 - 1825 are grouped by a factor 2 ... 1826 - 1828 are grouped by a factor 3 ... 1829 - 1829 are single channels ... 1830 - 1831 are grouped by a factor 2 ... 1832 - 1837 are grouped by a factor 3 ... 1838 - 1843 are grouped by a factor 2 ... 1844 - 1846 are grouped by a factor 3 ... 1847 - 1848 are grouped by a factor 2 ... 1849 - 1851 are grouped by a factor 3 ... 1852 - 1855 are grouped by a factor 2 ... 1856 - 1858 are grouped by a factor 3 ... 1859 - 1860 are grouped by a factor 2 ... 1861 - 1863 are grouped by a factor 3 ... 1864 - 1865 are grouped by a factor 2 ... 1866 - 1874 are grouped by a factor 3 ... 1875 - 1878 are grouped by a factor 2 ... 1879 - 1882 are grouped by a factor 4 ... 1883 - 1885 are grouped by a factor 3 ... 1886 - 1887 are grouped by a factor 2 ... 1888 - 1899 are grouped by a factor 3 ... 1900 - 1901 are grouped by a factor 2 ... 1902 - 1913 are grouped by a factor 3 ... 1914 - 1915 are grouped by a factor 2 ... 1916 - 1921 are grouped by a factor 3 ... 1922 - 1923 are grouped by a factor 2 ... 1924 - 1927 are grouped by a factor 4 ... 1928 - 1931 are grouped by a factor 2 ... 1932 - 1940 are grouped by a factor 3 ... 1941 - 1942 are grouped by a factor 2 ... 1943 - 1948 are grouped by a factor 3 ... 1949 - 1952 are grouped by a factor 4 ... 1953 - 1958 are grouped by a factor 3 ... 1959 - 1966 are grouped by a factor 4 ... 1967 - 1969 are grouped by a factor 3 ... 1970 - 1973 are grouped by a factor 4 ... 1974 - 1983 are grouped by a factor 5 ... 1984 - 1986 are grouped by a factor 3 ... 1987 - 1998 are grouped by a factor 4 ... 1999 - 2001 are grouped by a factor 3 ... 2002 - 2005 are grouped by a factor 4 ... 2006 - 2010 are grouped by a factor 5 ... 2011 - 2013 are grouped by a factor 3 ... 2014 - 2021 are grouped by a factor 4 ... 2022 - 2031 are grouped by a factor 5 ... 2032 - 2039 are grouped by a factor 4 ... 2040 - 2044 are grouped by a factor 5 ... 2045 - 2048 are grouped by a factor 4 ... 2049 - 2054 are grouped by a factor 3 ... 2055 - 2059 are grouped by a factor 5 ... 2060 - 2062 are grouped by a factor 3 ... 2063 - 2066 are grouped by a factor 4 ... 2067 - 2071 are grouped by a factor 5 ... 2072 - 2075 are grouped by a factor 4 ... 2076 - 2084 are grouped by a factor 3 ... 2085 - 2088 are grouped by a factor 4 ... 2089 - 2098 are grouped by a factor 5 ... 2099 - 2105 are grouped by a factor 7 ... 2106 - 2120 are grouped by a factor 5 ... 2121 - 2126 are grouped by a factor 6 ... 2127 - 2156 are grouped by a factor 5 ... 2157 - 2198 are grouped by a factor 6 ... 2199 - 2212 are grouped by a factor 7 ... 2213 - 2217 are grouped by a factor 5 ... 2218 - 2224 are grouped by a factor 7 ... 2225 - 2230 are grouped by a factor 6 ... 2231 - 2237 are grouped by a factor 7 ... 2238 - 2249 are grouped by a factor 6 ... 2250 - 2253 are grouped by a factor 4 ... 2254 - 2258 are grouped by a factor 5 ... 2259 - 2270 are grouped by a factor 6 ... 2271 - 2274 are grouped by a factor 4 ... 2275 - 2280 are grouped by a factor 6 ... 2281 - 2285 are grouped by a factor 5 ... 2286 - 2299 are grouped by a factor 7 ... 2300 - 2309 are grouped by a factor 10 ... 2310 - 2330 are grouped by a factor 7 ... 2331 - 2336 are grouped by a factor 6 ... 2337 - 2343 are grouped by a factor 7 ... 2344 - 2351 are grouped by a factor 8 ... 2352 - 2365 are grouped by a factor 14 ... 2366 - 2392 are grouped by a factor 9 ... 2393 - 2414 are grouped by a factor 11 ... 2415 - 2423 are grouped by a factor 9 ... 2424 - 2433 are grouped by a factor 10 ... 2434 - 2444 are grouped by a factor 11 ... 2445 - 2454 are grouped by a factor 10 ... 2455 - 2466 are grouped by a factor 12 ... 2467 - 2479 are grouped by a factor 13 ... 2480 - 2489 are grouped by a factor 10 ... 2490 - 2503 are grouped by a factor 14 ... 2504 - 2513 are grouped by a factor 10 ... 2514 - 2525 are grouped by a factor 12 ... 2526 - 2534 are grouped by a factor 9 ... 2535 - 2545 are grouped by a factor 11 ... 2546 - 2557 are grouped by a factor 12 ... 2558 - 2574 are grouped by a factor 17 ... 2575 - 2589 are grouped by a factor 15 ... 2590 - 2601 are grouped by a factor 12 ... 2602 - 2619 are grouped by a factor 18 ... 2620 - 2635 are grouped by a factor 16 ... 2636 - 2650 are grouped by a factor 15 ... 2651 - 2662 are grouped by a factor 12 ... 2663 - 2673 are grouped by a factor 11 ... 2674 - 2697 are grouped by a factor 12 ... 2698 - 2714 are grouped by a factor 17 ... 2715 - 2732 are grouped by a factor 18 ... 2733 - 2754 are grouped by a factor 22 ... 2755 - 2772 are grouped by a factor 18 ... 2773 - 2793 are grouped by a factor 21 ... 2794 - 2815 are grouped by a factor 22 ... 2816 - 2847 are grouped by a factor 32 ... 2848 - 2872 are grouped by a factor 25 ... 2873 - 2892 are grouped by a factor 20 ... 2893 - 2911 are grouped by a factor 19 ... 2912 - 2932 are grouped by a factor 21 ... 2933 - 2962 are grouped by a factor 30 ... 2963 - 2988 are grouped by a factor 26 ... 2989 - 3011 are grouped by a factor 23 ... 3012 - 3045 are grouped by a factor 34 ... 3046 - 3086 are grouped by a factor 41 ... 3087 - 3123 are grouped by a factor 37 ... 3124 - 3156 are grouped by a factor 33 ... 3157 - 3185 are grouped by a factor 29 ... 3186 - 3223 are grouped by a factor 38 ... 3224 - 3282 are grouped by a factor 59 ... 3283 - 3349 are grouped by a factor 67 ... 3350 - 3421 are grouped by a factor 72 ... 3422 - 3532 are grouped by a factor 111 ... 3533 - 3660 are grouped by a factor 128 ... 3661 - 3866 are grouped by a factor 206 ... 3867 - 4095 are grouped by a factor 229 ... --------------------------------------------- ... 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 ae403025010xi0_0_3x3n066a_sr.pi.
Input sky coordinates: 7.2036000000000E+00, 5.9289400000000E+01 Output pixel coordinates: 7.5350529543480E+02, 7.2739560161984E+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,"ae403025010xi1_0_3x3n069b_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,7.195136814957,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,30.698704777525,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,5.918395326193,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"7.1951",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"59.3013",,,"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,"267272654.000000",,,"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,7.20359717104833,,,"R.A. (J2000) in deg" deltaJ2000,r,a,59.2894015010075,,,"DEC. (J2000) in deg" alphaB1950,r,a,6.50727321360107,,,"R.A. (B1950) in deg" deltaB1950,r,a,59.0130631641305,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00151375130915454,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00486258764677672,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,17.7251363625601,,,"angular difference in arcsec by aberration" l,r,a,120.041658332769,,,"Galactic longitude (deg)" b,r,a,-3.45532873417728,,,"Galactic latitude (deg)" x,r,a,753.51,,,"X value of SKY coorindates (pixel)" y,r,a,727.40,,,"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,753.512081655328,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,727.405707540637,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,742.532702269948,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.492909076853,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,102.532702269948,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.492909076853,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.520898247411859,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-149.998870180691,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.510005204862,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,727.400014270846,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,742.529104718491,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.494986218744,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,944.026104718491,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.494986218744,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.05993548104722,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-4.88285479022387,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.510000000002,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,727.400000000018,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,742.529095700819,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.494991425336,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,483.029095700819,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.994991425336,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,541,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,29,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,31,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.79668033890187,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-169.699954458748,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.510000000002,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,727.400000000018,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,742.529095700819,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.494991425336,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,483.029095700819,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.994991425336,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,482,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,8,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,482,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,482,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.40440446358677,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.233952311097,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.510000000002,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,727.400000000018,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,742.529095700819,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.494991425336,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,486.029095700819,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.994991425336,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,538,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,2,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,538,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,538,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.113733671579756,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-4.3354809603818,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.510000000002,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,727.400000000018,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,742.529095700819,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.494991425336,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,475.029095700819,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.994991425336,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,549,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,37,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,39,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.393199817541051,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,73.5005357141678,,,"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)
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***** 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 753.510 (pixel)
Y 727.400 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae403025010xi1_0_3x3n069b_cl.evt+1'
EA1 7.195136814957 (deg)
EA2 30.698704777525 (deg)
EA3 5.918395326193 (deg)
REF_ALPHA 7.1951 (deg) / 0h28m46.8s
REF_DELTA 59.3013 (deg) / +59d18m05s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267272654.000 / 2008-06-20T10:24:13 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 ( 7.2036 , 59.2894 ) [deg] / ( 0h28m48.9s , +59d17m22s )
B1950 ( 6.5073 , 59.0131 ) [deg] / ( 0h26m01.7s , +59d00m47s )
Galactic ( 120.0417 , -3.4553 ) [deg]
Aberration ( -5.4495 , -17.5053 ) [arcsec], Ang.Distance = 17.7251
XRS SKY ( 753.5121 , 727.4057 ) [pixel]
XRS FOC ( 742.5327 , 783.4929 ) [pixel]
XRS DET ( 102.5327 , 143.4929 ) [pixel]
XRS THETA/PHI 0.5209 [arcmin] / -149.9989 [deg]
XRS PIXEL = 8
HXD SKY ( 753.5100 , 727.4000 ) [pixel]
HXD FOC ( 742.5291 , 783.4950 ) [pixel]
HXD DET ( 944.0261 , 783.4950 ) [pixel]
HXD THETA/PHI 3.0599 [arcmin] / -4.8829 [deg]
XIS0 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS0 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS0 DET ( 483.0291 , 515.9950 ) [pixel]
XIS0 ACT ( 541 , 515 ) [pixel]
XIS0 RAW ( 29 , 515 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 31 , 515 ) [pixel]
XIS0 THETA/PHI 1.7967 [arcmin] / -169.7000 [deg]
XIS1 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS1 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS1 DET ( 483.0291 , 520.9950 ) [pixel]
XIS1 ACT ( 520 , 482 ) [pixel]
XIS1 RAW ( 8 , 482 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 482 ) [pixel]
XIS1 THETA/PHI 1.4044 [arcmin] / -143.2340 [deg]
XIS2 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS2 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS2 DET ( 486.0291 , 509.9950 ) [pixel]
XIS2 ACT ( 514 , 538 ) [pixel]
XIS2 RAW ( 2 , 538 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 538 ) [pixel]
XIS2 THETA/PHI 0.1137 [arcmin] / -4.3355 [deg]
XIS3 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS3 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS3 DET ( 475.0291 , 523.9950 ) [pixel]
XIS3 ACT ( 549 , 523 ) [pixel]
XIS3 RAW ( 37 , 523 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 39 , 523 ) [pixel]
XIS3 THETA/PHI 0.3932 [arcmin] / 73.5005 [deg]
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***** 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
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Name Allocated Used #Put #Get Attrib
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-> ae403025010xi1_0_3x3n069b_cl.evt_source.reg.tmp circle(753,727,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi1_0_3x3n069b_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
102376 64377 37999 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
102376 64377 37999 0 0 0 0
in 31364. seconds
Spectrum has 64377 counts for 2.053 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi1_0_3x3n069b_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
102376 15234 87142 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
102376 15234 87142 0 0 0 0
in 31364. seconds
Spectrum has 15233 counts for 0.4857 counts/sec
... written the PHA data Extension
-> Creating RMF for ae403025010xi1_0_3x3n069b_sr.piinfile,s,h,"ae403025010xi1_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 ae403025010xi1_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 - 31364. 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 - 49 are single channels ... 50 - 51 are grouped by a factor 2 ... 52 - 52 are single channels ... 53 - 60 are grouped by a factor 2 ... 61 - 66 are grouped by a factor 3 ... 67 - 68 are grouped by a factor 2 ... 69 - 74 are grouped by a factor 3 ... 75 - 82 are grouped by a factor 4 ... 83 - 85 are grouped by a factor 3 ... 86 - 95 are grouped by a factor 5 ... 96 - 101 are grouped by a factor 6 ... 102 - 113 are grouped by a factor 4 ... 114 - 119 are grouped by a factor 3 ... 120 - 123 are grouped by a factor 4 ... 124 - 129 are grouped by a factor 2 ... 130 - 131 are single channels ... 132 - 143 are grouped by a factor 2 ... 144 - 144 are single channels ... 145 - 154 are grouped by a factor 2 ... 155 - 155 are single channels ... 156 - 157 are grouped by a factor 2 ... 158 - 159 are single channels ... 160 - 161 are grouped by a factor 2 ... 162 - 162 are single channels ... 163 - 166 are grouped by a factor 2 ... 167 - 169 are single channels ... 170 - 171 are grouped by a factor 2 ... 172 - 655 are single channels ... 656 - 657 are grouped by a factor 2 ... 658 - 659 are single channels ... 660 - 661 are grouped by a factor 2 ... 662 - 665 are single channels ... 666 - 667 are grouped by a factor 2 ... 668 - 676 are single channels ... 677 - 678 are grouped by a factor 2 ... 679 - 697 are single channels ... 698 - 699 are grouped by a factor 2 ... 700 - 717 are single channels ... 718 - 721 are grouped by a factor 2 ... 722 - 744 are single channels ... 745 - 746 are grouped by a factor 2 ... 747 - 747 are single channels ... 748 - 749 are grouped by a factor 2 ... 750 - 750 are single channels ... 751 - 754 are grouped by a factor 2 ... 755 - 755 are single channels ... 756 - 757 are grouped by a factor 2 ... 758 - 760 are single channels ... 761 - 764 are grouped by a factor 2 ... 765 - 765 are single channels ... 766 - 767 are grouped by a factor 2 ... 768 - 769 are single channels ... 770 - 771 are grouped by a factor 2 ... 772 - 777 are single channels ... 778 - 779 are grouped by a factor 2 ... 780 - 780 are single channels ... 781 - 782 are grouped by a factor 2 ... 783 - 785 are single channels ... 786 - 787 are grouped by a factor 2 ... 788 - 789 are single channels ... 790 - 791 are grouped by a factor 2 ... 792 - 794 are single channels ... 795 - 800 are grouped by a factor 2 ... 801 - 814 are single channels ... 815 - 818 are grouped by a factor 2 ... 819 - 819 are single channels ... 820 - 821 are grouped by a factor 2 ... 822 - 824 are single channels ... 825 - 826 are grouped by a factor 2 ... 827 - 833 are single channels ... 834 - 835 are grouped by a factor 2 ... 836 - 836 are single channels ... 837 - 840 are grouped by a factor 2 ... 841 - 841 are single channels ... 842 - 843 are grouped by a factor 2 ... 844 - 844 are single channels ... 845 - 848 are grouped by a factor 2 ... 849 - 849 are single channels ... 850 - 857 are grouped by a factor 2 ... 858 - 865 are single channels ... 866 - 867 are grouped by a factor 2 ... 868 - 869 are single channels ... 870 - 871 are grouped by a factor 2 ... 872 - 875 are single channels ... 876 - 877 are grouped by a factor 2 ... 878 - 878 are single channels ... 879 - 884 are grouped by a factor 2 ... 885 - 886 are single channels ... 887 - 890 are grouped by a factor 2 ... 891 - 893 are single channels ... 894 - 895 are grouped by a factor 2 ... 896 - 896 are single channels ... 897 - 902 are grouped by a factor 2 ... 903 - 905 are single channels ... 906 - 909 are grouped by a factor 2 ... 910 - 910 are single channels ... 911 - 914 are grouped by a factor 2 ... 915 - 921 are single channels ... 922 - 923 are grouped by a factor 2 ... 924 - 924 are single channels ... 925 - 928 are grouped by a factor 2 ... 929 - 929 are single channels ... 930 - 931 are grouped by a factor 2 ... 932 - 932 are single channels ... 933 - 934 are grouped by a factor 2 ... 935 - 939 are single channels ... 940 - 941 are grouped by a factor 2 ... 942 - 942 are single channels ... 943 - 946 are grouped by a factor 2 ... 947 - 949 are single channels ... 950 - 953 are grouped by a factor 2 ... 954 - 957 are single channels ... 958 - 959 are grouped by a factor 2 ... 960 - 960 are single channels ... 961 - 966 are grouped by a factor 2 ... 967 - 967 are single channels ... 968 - 973 are grouped by a factor 2 ... 974 - 974 are single channels ... 975 - 976 are grouped by a factor 2 ... 977 - 980 are single channels ... 981 - 982 are grouped by a factor 2 ... 983 - 986 are single channels ... 987 - 988 are grouped by a factor 2 ... 989 - 993 are single channels ... 994 - 997 are grouped by a factor 2 ... 998 - 999 are single channels ... 1000 - 1003 are grouped by a factor 2 ... 1004 - 1006 are single channels ... 1007 - 1008 are grouped by a factor 2 ... 1009 - 1010 are single channels ... 1011 - 1014 are grouped by a factor 2 ... 1015 - 1018 are single channels ... 1019 - 1030 are grouped by a factor 2 ... 1031 - 1031 are single channels ... 1032 - 1033 are grouped by a factor 2 ... 1034 - 1034 are single channels ... 1035 - 1036 are grouped by a factor 2 ... 1037 - 1037 are single channels ... 1038 - 1055 are grouped by a factor 2 ... 1056 - 1057 are single channels ... 1058 - 1059 are grouped by a factor 2 ... 1060 - 1060 are single channels ... 1061 - 1072 are grouped by a factor 2 ... 1073 - 1074 are single channels ... 1075 - 1076 are grouped by a factor 2 ... 1077 - 1077 are single channels ... 1078 - 1079 are grouped by a factor 2 ... 1080 - 1080 are single channels ... 1081 - 1112 are grouped by a factor 2 ... 1113 - 1114 are single channels ... 1115 - 1118 are grouped by a factor 2 ... 1119 - 1119 are single channels ... 1120 - 1131 are grouped by a factor 2 ... 1132 - 1132 are single channels ... 1133 - 1134 are grouped by a factor 2 ... 1135 - 1135 are single channels ... 1136 - 1141 are grouped by a factor 2 ... 1142 - 1142 are single channels ... 1143 - 1150 are grouped by a factor 2 ... 1151 - 1152 are single channels ... 1153 - 1154 are grouped by a factor 2 ... 1155 - 1156 are single channels ... 1157 - 1158 are grouped by a factor 2 ... 1159 - 1160 are single channels ... 1161 - 1172 are grouped by a factor 2 ... 1173 - 1174 are single channels ... 1175 - 1212 are grouped by a factor 2 ... 1213 - 1213 are single channels ... 1214 - 1217 are grouped by a factor 2 ... 1218 - 1218 are single channels ... 1219 - 1220 are grouped by a factor 2 ... 1221 - 1221 are single channels ... 1222 - 1225 are grouped by a factor 2 ... 1226 - 1226 are single channels ... 1227 - 1228 are grouped by a factor 2 ... 1229 - 1229 are single channels ... 1230 - 1253 are grouped by a factor 2 ... 1254 - 1254 are single channels ... 1255 - 1280 are grouped by a factor 2 ... 1281 - 1281 are single channels ... 1282 - 1303 are grouped by a factor 2 ... 1304 - 1306 are grouped by a factor 3 ... 1307 - 1326 are grouped by a factor 2 ... 1327 - 1329 are grouped by a factor 3 ... 1330 - 1333 are grouped by a factor 2 ... 1334 - 1336 are grouped by a factor 3 ... 1337 - 1346 are grouped by a factor 2 ... 1347 - 1347 are single channels ... 1348 - 1350 are grouped by a factor 3 ... 1351 - 1362 are grouped by a factor 2 ... 1363 - 1365 are grouped by a factor 3 ... 1366 - 1401 are grouped by a factor 2 ... 1402 - 1404 are grouped by a factor 3 ... 1405 - 1416 are grouped by a factor 2 ... 1417 - 1419 are grouped by a factor 3 ... 1420 - 1443 are grouped by a factor 2 ... 1444 - 1446 are grouped by a factor 3 ... 1447 - 1454 are grouped by a factor 2 ... 1455 - 1457 are grouped by a factor 3 ... 1458 - 1473 are grouped by a factor 2 ... 1474 - 1476 are grouped by a factor 3 ... 1477 - 1478 are grouped by a factor 2 ... 1479 - 1481 are grouped by a factor 3 ... 1482 - 1487 are grouped by a factor 2 ... 1488 - 1490 are grouped by a factor 3 ... 1491 - 1496 are grouped by a factor 2 ... 1497 - 1499 are grouped by a factor 3 ... 1500 - 1503 are grouped by a factor 2 ... 1504 - 1506 are grouped by a factor 3 ... 1507 - 1514 are grouped by a factor 2 ... 1515 - 1517 are grouped by a factor 3 ... 1518 - 1519 are grouped by a factor 2 ... 1520 - 1525 are grouped by a factor 3 ... 1526 - 1527 are grouped by a factor 2 ... 1528 - 1533 are grouped by a factor 3 ... 1534 - 1535 are grouped by a factor 2 ... 1536 - 1544 are grouped by a factor 3 ... 1545 - 1564 are grouped by a factor 2 ... 1565 - 1567 are grouped by a factor 3 ... 1568 - 1573 are grouped by a factor 2 ... 1574 - 1576 are grouped by a factor 3 ... 1577 - 1578 are grouped by a factor 2 ... 1579 - 1581 are grouped by a factor 3 ... 1582 - 1583 are grouped by a factor 2 ... 1584 - 1586 are grouped by a factor 3 ... 1587 - 1598 are grouped by a factor 2 ... 1599 - 1601 are grouped by a factor 3 ... 1602 - 1609 are grouped by a factor 2 ... 1610 - 1612 are grouped by a factor 3 ... 1613 - 1616 are grouped by a factor 2 ... 1617 - 1622 are grouped by a factor 3 ... 1623 - 1624 are grouped by a factor 2 ... 1625 - 1627 are grouped by a factor 3 ... 1628 - 1629 are grouped by a factor 2 ... 1630 - 1677 are grouped by a factor 3 ... 1678 - 1687 are grouped by a factor 2 ... 1688 - 1696 are grouped by a factor 3 ... 1697 - 1698 are grouped by a factor 2 ... 1699 - 1702 are grouped by a factor 4 ... 1703 - 1704 are grouped by a factor 2 ... 1705 - 1707 are grouped by a factor 3 ... 1708 - 1709 are grouped by a factor 2 ... 1710 - 1715 are grouped by a factor 3 ... 1716 - 1717 are grouped by a factor 2 ... 1718 - 1723 are grouped by a factor 3 ... 1724 - 1729 are grouped by a factor 2 ... 1730 - 1735 are grouped by a factor 3 ... 1736 - 1755 are grouped by a factor 2 ... 1756 - 1758 are grouped by a factor 3 ... 1759 - 1766 are grouped by a factor 2 ... 1767 - 1769 are grouped by a factor 3 ... 1770 - 1773 are grouped by a factor 2 ... 1774 - 1779 are grouped by a factor 3 ... 1780 - 1787 are grouped by a factor 2 ... 1788 - 1791 are grouped by a factor 4 ... 1792 - 1803 are grouped by a factor 3 ... 1804 - 1807 are grouped by a factor 4 ... 1808 - 1813 are grouped by a factor 3 ... 1814 - 1815 are grouped by a factor 2 ... 1816 - 1818 are grouped by a factor 3 ... 1819 - 1822 are grouped by a factor 2 ... 1823 - 1826 are grouped by a factor 4 ... 1827 - 1838 are grouped by a factor 3 ... 1839 - 1840 are grouped by a factor 2 ... 1841 - 1849 are grouped by a factor 3 ... 1850 - 1851 are grouped by a factor 2 ... 1852 - 1854 are grouped by a factor 3 ... 1855 - 1858 are grouped by a factor 4 ... 1859 - 1861 are grouped by a factor 3 ... 1862 - 1866 are grouped by a factor 5 ... 1867 - 1874 are grouped by a factor 4 ... 1875 - 1889 are grouped by a factor 3 ... 1890 - 1891 are grouped by a factor 2 ... 1892 - 1894 are grouped by a factor 3 ... 1895 - 1910 are grouped by a factor 4 ... 1911 - 1913 are grouped by a factor 3 ... 1914 - 1917 are grouped by a factor 4 ... 1918 - 1920 are grouped by a factor 3 ... 1921 - 1928 are grouped by a factor 4 ... 1929 - 1934 are grouped by a factor 3 ... 1935 - 1938 are grouped by a factor 4 ... 1939 - 1941 are grouped by a factor 3 ... 1942 - 1945 are grouped by a factor 4 ... 1946 - 1950 are grouped by a factor 5 ... 1951 - 1954 are grouped by a factor 4 ... 1955 - 1960 are grouped by a factor 6 ... 1961 - 1964 are grouped by a factor 4 ... 1965 - 1967 are grouped by a factor 3 ... 1968 - 1971 are grouped by a factor 4 ... 1972 - 1981 are grouped by a factor 5 ... 1982 - 1984 are grouped by a factor 3 ... 1985 - 1988 are grouped by a factor 4 ... 1989 - 1998 are grouped by a factor 5 ... 1999 - 2004 are grouped by a factor 6 ... 2005 - 2008 are grouped by a factor 4 ... 2009 - 2018 are grouped by a factor 5 ... 2019 - 2022 are grouped by a factor 4 ... 2023 - 2027 are grouped by a factor 5 ... 2028 - 2030 are grouped by a factor 3 ... 2031 - 2034 are grouped by a factor 4 ... 2035 - 2039 are grouped by a factor 5 ... 2040 - 2043 are grouped by a factor 4 ... 2044 - 2049 are grouped by a factor 6 ... 2050 - 2054 are grouped by a factor 5 ... 2055 - 2057 are grouped by a factor 3 ... 2058 - 2062 are grouped by a factor 5 ... 2063 - 2068 are grouped by a factor 6 ... 2069 - 2072 are grouped by a factor 4 ... 2073 - 2078 are grouped by a factor 6 ... 2079 - 2082 are grouped by a factor 4 ... 2083 - 2088 are grouped by a factor 6 ... 2089 - 2092 are grouped by a factor 4 ... 2093 - 2098 are grouped by a factor 6 ... 2099 - 2102 are grouped by a factor 4 ... 2103 - 2116 are grouped by a factor 7 ... 2117 - 2121 are grouped by a factor 5 ... 2122 - 2129 are grouped by a factor 8 ... 2130 - 2134 are grouped by a factor 5 ... 2135 - 2146 are grouped by a factor 6 ... 2147 - 2150 are grouped by a factor 4 ... 2151 - 2157 are grouped by a factor 7 ... 2158 - 2162 are grouped by a factor 5 ... 2163 - 2170 are grouped by a factor 8 ... 2171 - 2175 are grouped by a factor 5 ... 2176 - 2191 are grouped by a factor 8 ... 2192 - 2196 are grouped by a factor 5 ... 2197 - 2202 are grouped by a factor 6 ... 2203 - 2216 are grouped by a factor 7 ... 2217 - 2224 are grouped by a factor 8 ... 2225 - 2233 are grouped by a factor 9 ... 2234 - 2254 are grouped by a factor 7 ... 2255 - 2263 are grouped by a factor 9 ... 2264 - 2271 are grouped by a factor 8 ... 2272 - 2280 are grouped by a factor 9 ... 2281 - 2288 are grouped by a factor 8 ... 2289 - 2295 are grouped by a factor 7 ... 2296 - 2301 are grouped by a factor 6 ... 2302 - 2317 are grouped by a factor 8 ... 2318 - 2324 are grouped by a factor 7 ... 2325 - 2332 are grouped by a factor 8 ... 2333 - 2350 are grouped by a factor 9 ... 2351 - 2362 are grouped by a factor 12 ... 2363 - 2371 are grouped by a factor 9 ... 2372 - 2387 are grouped by a factor 8 ... 2388 - 2392 are grouped by a factor 5 ... 2393 - 2400 are grouped by a factor 8 ... 2401 - 2409 are grouped by a factor 9 ... 2410 - 2420 are grouped by a factor 11 ... 2421 - 2430 are grouped by a factor 10 ... 2431 - 2436 are grouped by a factor 6 ... 2437 - 2449 are grouped by a factor 13 ... 2450 - 2457 are grouped by a factor 8 ... 2458 - 2467 are grouped by a factor 10 ... 2468 - 2478 are grouped by a factor 11 ... 2479 - 2514 are grouped by a factor 9 ... 2515 - 2521 are grouped by a factor 7 ... 2522 - 2534 are grouped by a factor 13 ... 2535 - 2546 are grouped by a factor 12 ... 2547 - 2564 are grouped by a factor 9 ... 2565 - 2571 are grouped by a factor 7 ... 2572 - 2593 are grouped by a factor 11 ... 2594 - 2601 are grouped by a factor 8 ... 2602 - 2610 are grouped by a factor 9 ... 2611 - 2617 are grouped by a factor 7 ... 2618 - 2626 are grouped by a factor 9 ... 2627 - 2636 are grouped by a factor 10 ... 2637 - 2643 are grouped by a factor 7 ... 2644 - 2652 are grouped by a factor 9 ... 2653 - 2660 are grouped by a factor 8 ... 2661 - 2669 are grouped by a factor 9 ... 2670 - 2682 are grouped by a factor 13 ... 2683 - 2690 are grouped by a factor 8 ... 2691 - 2699 are grouped by a factor 9 ... 2700 - 2706 are grouped by a factor 7 ... 2707 - 2726 are grouped by a factor 10 ... 2727 - 2735 are grouped by a factor 9 ... 2736 - 2745 are grouped by a factor 10 ... 2746 - 2757 are grouped by a factor 12 ... 2758 - 2767 are grouped by a factor 10 ... 2768 - 2776 are grouped by a factor 9 ... 2777 - 2800 are grouped by a factor 12 ... 2801 - 2827 are grouped by a factor 9 ... 2828 - 2835 are grouped by a factor 8 ... 2836 - 2842 are grouped by a factor 7 ... 2843 - 2850 are grouped by a factor 8 ... 2851 - 2861 are grouped by a factor 11 ... 2862 - 2870 are grouped by a factor 9 ... 2871 - 2890 are grouped by a factor 10 ... 2891 - 2898 are grouped by a factor 8 ... 2899 - 2909 are grouped by a factor 11 ... 2910 - 2919 are grouped by a factor 10 ... 2920 - 2931 are grouped by a factor 12 ... 2932 - 2945 are grouped by a factor 14 ... 2946 - 2953 are grouped by a factor 8 ... 2954 - 2963 are grouped by a factor 10 ... 2964 - 2975 are grouped by a factor 12 ... 2976 - 2982 are grouped by a factor 7 ... 2983 - 2990 are grouped by a factor 8 ... 2991 - 3001 are grouped by a factor 11 ... 3002 - 3008 are grouped by a factor 7 ... 3009 - 3032 are grouped by a factor 12 ... 3033 - 3039 are grouped by a factor 7 ... 3040 - 3049 are grouped by a factor 10 ... 3050 - 3076 are grouped by a factor 9 ... 3077 - 3086 are grouped by a factor 10 ... 3087 - 3099 are grouped by a factor 13 ... 3100 - 3108 are grouped by a factor 9 ... 3109 - 3124 are grouped by a factor 8 ... 3125 - 3138 are grouped by a factor 14 ... 3139 - 3146 are grouped by a factor 8 ... 3147 - 3164 are grouped by a factor 9 ... 3165 - 3177 are grouped by a factor 13 ... 3178 - 3189 are grouped by a factor 12 ... 3190 - 3199 are grouped by a factor 10 ... 3200 - 3208 are grouped by a factor 9 ... 3209 - 3218 are grouped by a factor 10 ... 3219 - 3227 are grouped by a factor 9 ... 3228 - 3234 are grouped by a factor 7 ... 3235 - 3244 are grouped by a factor 10 ... 3245 - 3266 are grouped by a factor 11 ... 3267 - 3279 are grouped by a factor 13 ... 3280 - 3286 are grouped by a factor 7 ... 3287 - 3296 are grouped by a factor 10 ... 3297 - 3320 are grouped by a factor 12 ... 3321 - 3330 are grouped by a factor 10 ... 3331 - 3363 are grouped by a factor 11 ... 3364 - 3373 are grouped by a factor 10 ... 3374 - 3384 are grouped by a factor 11 ... 3385 - 3394 are grouped by a factor 10 ... 3395 - 3405 are grouped by a factor 11 ... 3406 - 3423 are grouped by a factor 9 ... 3424 - 3431 are grouped by a factor 8 ... 3432 - 3441 are grouped by a factor 10 ... 3442 - 3449 are grouped by a factor 8 ... 3450 - 3459 are grouped by a factor 10 ... 3460 - 3468 are grouped by a factor 9 ... 3469 - 3475 are grouped by a factor 7 ... 3476 - 3486 are grouped by a factor 11 ... 3487 - 3494 are grouped by a factor 8 ... 3495 - 3503 are grouped by a factor 9 ... 3504 - 3511 are grouped by a factor 8 ... 3512 - 3524 are grouped by a factor 13 ... 3525 - 3536 are grouped by a factor 12 ... 3537 - 3558 are grouped by a factor 11 ... 3559 - 3567 are grouped by a factor 9 ... 3568 - 3578 are grouped by a factor 11 ... 3579 - 3590 are grouped by a factor 12 ... 3591 - 3599 are grouped by a factor 9 ... 3600 - 3609 are grouped by a factor 10 ... 3610 - 3620 are grouped by a factor 11 ... 3621 - 3632 are grouped by a factor 12 ... 3633 - 3647 are grouped by a factor 15 ... 3648 - 3660 are grouped by a factor 13 ... 3661 - 3672 are grouped by a factor 12 ... 3673 - 3685 are grouped by a factor 13 ... 3686 - 3693 are grouped by a factor 8 ... 3694 - 3729 are grouped by a factor 18 ... 3730 - 3741 are grouped by a factor 12 ... 3742 - 3767 are grouped by a factor 13 ... 3768 - 3779 are grouped by a factor 12 ... 3780 - 3792 are grouped by a factor 13 ... 3793 - 3804 are grouped by a factor 12 ... 3805 - 3812 are grouped by a factor 8 ... 3813 - 3825 are grouped by a factor 13 ... 3826 - 3836 are grouped by a factor 11 ... 3837 - 3845 are grouped by a factor 9 ... 3846 - 3865 are grouped by a factor 20 ... 3866 - 3877 are grouped by a factor 12 ... 3878 - 3887 are grouped by a factor 10 ... 3888 - 3900 are grouped by a factor 13 ... 3901 - 3909 are grouped by a factor 9 ... 3910 - 3933 are grouped by a factor 12 ... 3934 - 3946 are grouped by a factor 13 ... 3947 - 3955 are grouped by a factor 9 ... 3956 - 3968 are grouped by a factor 13 ... 3969 - 3982 are grouped by a factor 14 ... 3983 - 4001 are grouped by a factor 19 ... 4002 - 4035 are grouped by a factor 17 ... 4036 - 4049 are grouped by a factor 14 ... 4050 - 4068 are grouped by a factor 19 ... 4069 - 4086 are grouped by a factor 18 ... 4087 - 4095 are grouped by a factor 9 ... --------------------------------------------- ... 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 ae403025010xi1_0_3x3n069b_sr.pi.
Input sky coordinates: 7.2036000000000E+00, 5.9289400000000E+01 Output pixel coordinates: 7.5350529543480E+02, 7.2739560161984E+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,"ae403025010xi3_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,7.195136814957,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,30.698704777525,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,5.918395326193,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"7.1951",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"59.3013",,,"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,"267272654.000000",,,"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,7.20359717104833,,,"R.A. (J2000) in deg" deltaJ2000,r,a,59.2894015010075,,,"DEC. (J2000) in deg" alphaB1950,r,a,6.50727321360107,,,"R.A. (B1950) in deg" deltaB1950,r,a,59.0130631641305,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00151375130915454,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00486258764677672,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,17.7251363625601,,,"angular difference in arcsec by aberration" l,r,a,120.041658332769,,,"Galactic longitude (deg)" b,r,a,-3.45532873417728,,,"Galactic latitude (deg)" x,r,a,753.51,,,"X value of SKY coorindates (pixel)" y,r,a,727.40,,,"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,753.512081655328,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,727.405707540637,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,742.532702269948,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.492909076853,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,102.532702269948,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.492909076853,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.520898247411859,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-149.998870180691,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.510005204862,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,727.400014270846,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,742.529104718491,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.494986218744,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,944.026104718491,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.494986218744,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.05993548104722,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-4.88285479022387,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.510000000002,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,727.400000000018,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,742.529095700819,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.494991425336,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,483.029095700819,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.994991425336,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,541,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,29,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,31,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.79668033890187,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-169.699954458748,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.510000000002,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,727.400000000018,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,742.529095700819,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.494991425336,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,483.029095700819,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.994991425336,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,482,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,8,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,482,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,482,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.40440446358677,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.233952311097,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.510000000002,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,727.400000000018,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,742.529095700819,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.494991425336,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,486.029095700819,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.994991425336,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,538,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,2,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,538,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,538,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.113733671579756,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-4.3354809603818,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.510000000002,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,727.400000000018,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,742.529095700819,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.494991425336,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,475.029095700819,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.994991425336,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,549,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,37,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,39,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.393199817541051,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,73.5005357141678,,,"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 753.510 (pixel)
Y 727.400 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae403025010xi3_0_3x3n066a_cl.evt+1'
EA1 7.195136814957 (deg)
EA2 30.698704777525 (deg)
EA3 5.918395326193 (deg)
REF_ALPHA 7.1951 (deg) / 0h28m46.8s
REF_DELTA 59.3013 (deg) / +59d18m05s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267272654.000 / 2008-06-20T10:24:13 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 ( 7.2036 , 59.2894 ) [deg] / ( 0h28m48.9s , +59d17m22s )
B1950 ( 6.5073 , 59.0131 ) [deg] / ( 0h26m01.7s , +59d00m47s )
Galactic ( 120.0417 , -3.4553 ) [deg]
Aberration ( -5.4495 , -17.5053 ) [arcsec], Ang.Distance = 17.7251
XRS SKY ( 753.5121 , 727.4057 ) [pixel]
XRS FOC ( 742.5327 , 783.4929 ) [pixel]
XRS DET ( 102.5327 , 143.4929 ) [pixel]
XRS THETA/PHI 0.5209 [arcmin] / -149.9989 [deg]
XRS PIXEL = 8
HXD SKY ( 753.5100 , 727.4000 ) [pixel]
HXD FOC ( 742.5291 , 783.4950 ) [pixel]
HXD DET ( 944.0261 , 783.4950 ) [pixel]
HXD THETA/PHI 3.0599 [arcmin] / -4.8829 [deg]
XIS0 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS0 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS0 DET ( 483.0291 , 515.9950 ) [pixel]
XIS0 ACT ( 541 , 515 ) [pixel]
XIS0 RAW ( 29 , 515 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 31 , 515 ) [pixel]
XIS0 THETA/PHI 1.7967 [arcmin] / -169.7000 [deg]
XIS1 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS1 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS1 DET ( 483.0291 , 520.9950 ) [pixel]
XIS1 ACT ( 520 , 482 ) [pixel]
XIS1 RAW ( 8 , 482 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 482 ) [pixel]
XIS1 THETA/PHI 1.4044 [arcmin] / -143.2340 [deg]
XIS2 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS2 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS2 DET ( 486.0291 , 509.9950 ) [pixel]
XIS2 ACT ( 514 , 538 ) [pixel]
XIS2 RAW ( 2 , 538 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 538 ) [pixel]
XIS2 THETA/PHI 0.1137 [arcmin] / -4.3355 [deg]
XIS3 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS3 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS3 DET ( 475.0291 , 523.9950 ) [pixel]
XIS3 ACT ( 549 , 523 ) [pixel]
XIS3 RAW ( 37 , 523 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 39 , 523 ) [pixel]
XIS3 THETA/PHI 0.3932 [arcmin] / 73.5005 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae403025010xi3_0_3x3n066a_cl.evt_source.reg.tmp circle(753,727,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi3_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
58907 49979 8928 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
58907 49979 8928 0 0 0 0
in 31364. seconds
Spectrum has 49979 counts for 1.594 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi3_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
58907 3600 55307 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
58907 3600 55307 0 0 0 0
in 31364. seconds
Spectrum has 3600 counts for 0.1148 counts/sec
... written the PHA data Extension
-> Creating RMF for ae403025010xi3_0_3x3n066a_sr.piinfile,s,h,"ae403025010xi3_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 ae403025010xi3_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 - 31364. 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 - 113 are grouped by a factor 114 ... 114 - 119 are grouped by a factor 6 ... 120 - 134 are grouped by a factor 5 ... 135 - 142 are grouped by a factor 4 ... 143 - 147 are grouped by a factor 5 ... 148 - 153 are grouped by a factor 6 ... 154 - 157 are grouped by a factor 4 ... 158 - 167 are grouped by a factor 5 ... 168 - 173 are grouped by a factor 6 ... 174 - 176 are grouped by a factor 3 ... 177 - 180 are grouped by a factor 4 ... 181 - 182 are grouped by a factor 2 ... 183 - 185 are grouped by a factor 3 ... 186 - 193 are grouped by a factor 2 ... 194 - 196 are grouped by a factor 3 ... 197 - 206 are grouped by a factor 2 ... 207 - 209 are grouped by a factor 3 ... 210 - 227 are grouped by a factor 2 ... 228 - 229 are single channels ... 230 - 231 are grouped by a factor 2 ... 232 - 252 are single channels ... 253 - 254 are grouped by a factor 2 ... 255 - 567 are single channels ... 568 - 569 are grouped by a factor 2 ... 570 - 610 are single channels ... 611 - 612 are grouped by a factor 2 ... 613 - 614 are single channels ... 615 - 618 are grouped by a factor 2 ... 619 - 622 are single channels ... 623 - 628 are grouped by a factor 2 ... 629 - 629 are single channels ... 630 - 631 are grouped by a factor 2 ... 632 - 632 are single channels ... 633 - 636 are grouped by a factor 2 ... 637 - 638 are single channels ... 639 - 644 are grouped by a factor 2 ... 645 - 645 are single channels ... 646 - 647 are grouped by a factor 2 ... 648 - 648 are single channels ... 649 - 658 are grouped by a factor 2 ... 659 - 663 are single channels ... 664 - 665 are grouped by a factor 2 ... 666 - 666 are single channels ... 667 - 670 are grouped by a factor 2 ... 671 - 671 are single channels ... 672 - 673 are grouped by a factor 2 ... 674 - 681 are single channels ... 682 - 683 are grouped by a factor 2 ... 684 - 686 are single channels ... 687 - 690 are grouped by a factor 2 ... 691 - 692 are single channels ... 693 - 694 are grouped by a factor 2 ... 695 - 696 are single channels ... 697 - 698 are grouped by a factor 2 ... 699 - 699 are single channels ... 700 - 701 are grouped by a factor 2 ... 702 - 704 are single channels ... 705 - 706 are grouped by a factor 2 ... 707 - 711 are single channels ... 712 - 715 are grouped by a factor 2 ... 716 - 721 are single channels ... 722 - 725 are grouped by a factor 2 ... 726 - 732 are single channels ... 733 - 734 are grouped by a factor 2 ... 735 - 739 are single channels ... 740 - 743 are grouped by a factor 2 ... 744 - 744 are single channels ... 745 - 748 are grouped by a factor 2 ... 749 - 750 are single channels ... 751 - 756 are grouped by a factor 2 ... 757 - 761 are single channels ... 762 - 765 are grouped by a factor 2 ... 766 - 767 are single channels ... 768 - 769 are grouped by a factor 2 ... 770 - 772 are single channels ... 773 - 774 are grouped by a factor 2 ... 775 - 775 are single channels ... 776 - 777 are grouped by a factor 2 ... 778 - 778 are single channels ... 779 - 784 are grouped by a factor 2 ... 785 - 787 are single channels ... 788 - 793 are grouped by a factor 2 ... 794 - 796 are single channels ... 797 - 802 are grouped by a factor 2 ... 803 - 803 are single channels ... 804 - 807 are grouped by a factor 2 ... 808 - 815 are single channels ... 816 - 817 are grouped by a factor 2 ... 818 - 823 are single channels ... 824 - 829 are grouped by a factor 2 ... 830 - 830 are single channels ... 831 - 834 are grouped by a factor 2 ... 835 - 836 are single channels ... 837 - 838 are grouped by a factor 2 ... 839 - 842 are single channels ... 843 - 844 are grouped by a factor 2 ... 845 - 847 are single channels ... 848 - 849 are grouped by a factor 2 ... 850 - 852 are single channels ... 853 - 854 are grouped by a factor 2 ... 855 - 856 are single channels ... 857 - 862 are grouped by a factor 2 ... 863 - 863 are single channels ... 864 - 865 are grouped by a factor 2 ... 866 - 867 are single channels ... 868 - 871 are grouped by a factor 2 ... 872 - 874 are single channels ... 875 - 876 are grouped by a factor 2 ... 877 - 880 are single channels ... 881 - 882 are grouped by a factor 2 ... 883 - 883 are single channels ... 884 - 887 are grouped by a factor 2 ... 888 - 890 are single channels ... 891 - 892 are grouped by a factor 2 ... 893 - 894 are single channels ... 895 - 902 are grouped by a factor 2 ... 903 - 903 are single channels ... 904 - 905 are grouped by a factor 2 ... 906 - 906 are single channels ... 907 - 908 are grouped by a factor 2 ... 909 - 912 are single channels ... 913 - 914 are grouped by a factor 2 ... 915 - 916 are single channels ... 917 - 918 are grouped by a factor 2 ... 919 - 919 are single channels ... 920 - 921 are grouped by a factor 2 ... 922 - 922 are single channels ... 923 - 932 are grouped by a factor 2 ... 933 - 933 are single channels ... 934 - 935 are grouped by a factor 2 ... 936 - 939 are single channels ... 940 - 947 are grouped by a factor 2 ... 948 - 950 are single channels ... 951 - 952 are grouped by a factor 2 ... 953 - 954 are single channels ... 955 - 956 are grouped by a factor 2 ... 957 - 959 are single channels ... 960 - 961 are grouped by a factor 2 ... 962 - 962 are single channels ... 963 - 964 are grouped by a factor 2 ... 965 - 966 are single channels ... 967 - 968 are grouped by a factor 2 ... 969 - 970 are single channels ... 971 - 980 are grouped by a factor 2 ... 981 - 982 are single channels ... 983 - 986 are grouped by a factor 2 ... 987 - 987 are single channels ... 988 - 989 are grouped by a factor 2 ... 990 - 990 are single channels ... 991 - 994 are grouped by a factor 2 ... 995 - 995 are single channels ... 996 - 1007 are grouped by a factor 2 ... 1008 - 1010 are single channels ... 1011 - 1014 are grouped by a factor 2 ... 1015 - 1015 are single channels ... 1016 - 1021 are grouped by a factor 2 ... 1022 - 1022 are single channels ... 1023 - 1028 are grouped by a factor 2 ... 1029 - 1033 are single channels ... 1034 - 1037 are grouped by a factor 2 ... 1038 - 1038 are single channels ... 1039 - 1044 are grouped by a factor 2 ... 1045 - 1046 are single channels ... 1047 - 1050 are grouped by a factor 2 ... 1051 - 1051 are single channels ... 1052 - 1053 are grouped by a factor 2 ... 1054 - 1054 are single channels ... 1055 - 1056 are grouped by a factor 2 ... 1057 - 1057 are single channels ... 1058 - 1063 are grouped by a factor 2 ... 1064 - 1066 are single channels ... 1067 - 1068 are grouped by a factor 2 ... 1069 - 1070 are single channels ... 1071 - 1080 are grouped by a factor 2 ... 1081 - 1082 are single channels ... 1083 - 1084 are grouped by a factor 2 ... 1085 - 1086 are single channels ... 1087 - 1090 are grouped by a factor 2 ... 1091 - 1091 are single channels ... 1092 - 1099 are grouped by a factor 2 ... 1100 - 1100 are single channels ... 1101 - 1102 are grouped by a factor 2 ... 1103 - 1104 are single channels ... 1105 - 1108 are grouped by a factor 2 ... 1109 - 1109 are single channels ... 1110 - 1121 are grouped by a factor 2 ... 1122 - 1122 are single channels ... 1123 - 1124 are grouped by a factor 2 ... 1125 - 1125 are single channels ... 1126 - 1135 are grouped by a factor 2 ... 1136 - 1137 are single channels ... 1138 - 1139 are grouped by a factor 2 ... 1140 - 1140 are single channels ... 1141 - 1150 are grouped by a factor 2 ... 1151 - 1151 are single channels ... 1152 - 1163 are grouped by a factor 2 ... 1164 - 1164 are single channels ... 1165 - 1170 are grouped by a factor 2 ... 1171 - 1171 are single channels ... 1172 - 1185 are grouped by a factor 2 ... 1186 - 1186 are single channels ... 1187 - 1216 are grouped by a factor 2 ... 1217 - 1217 are single channels ... 1218 - 1241 are grouped by a factor 2 ... 1242 - 1243 are single channels ... 1244 - 1255 are grouped by a factor 2 ... 1256 - 1256 are single channels ... 1257 - 1260 are grouped by a factor 2 ... 1261 - 1263 are single channels ... 1264 - 1285 are grouped by a factor 2 ... 1286 - 1286 are single channels ... 1287 - 1296 are grouped by a factor 2 ... 1297 - 1297 are single channels ... 1298 - 1303 are grouped by a factor 2 ... 1304 - 1304 are single channels ... 1305 - 1336 are grouped by a factor 2 ... 1337 - 1337 are single channels ... 1338 - 1399 are grouped by a factor 2 ... 1400 - 1402 are grouped by a factor 3 ... 1403 - 1404 are grouped by a factor 2 ... 1405 - 1407 are grouped by a factor 3 ... 1408 - 1437 are grouped by a factor 2 ... 1438 - 1443 are grouped by a factor 3 ... 1444 - 1451 are grouped by a factor 2 ... 1452 - 1454 are grouped by a factor 3 ... 1455 - 1546 are grouped by a factor 2 ... 1547 - 1555 are grouped by a factor 3 ... 1556 - 1561 are grouped by a factor 2 ... 1562 - 1570 are grouped by a factor 3 ... 1571 - 1572 are grouped by a factor 2 ... 1573 - 1575 are grouped by a factor 3 ... 1576 - 1585 are grouped by a factor 2 ... 1586 - 1588 are grouped by a factor 3 ... 1589 - 1596 are grouped by a factor 2 ... 1597 - 1599 are grouped by a factor 3 ... 1600 - 1601 are grouped by a factor 2 ... 1602 - 1604 are grouped by a factor 3 ... 1605 - 1616 are grouped by a factor 2 ... 1617 - 1625 are grouped by a factor 3 ... 1626 - 1635 are grouped by a factor 2 ... 1636 - 1638 are grouped by a factor 3 ... 1639 - 1642 are grouped by a factor 2 ... 1643 - 1645 are grouped by a factor 3 ... 1646 - 1653 are grouped by a factor 2 ... 1654 - 1659 are grouped by a factor 3 ... 1660 - 1665 are grouped by a factor 2 ... 1666 - 1674 are grouped by a factor 3 ... 1675 - 1682 are grouped by a factor 2 ... 1683 - 1688 are grouped by a factor 3 ... 1689 - 1694 are grouped by a factor 2 ... 1695 - 1703 are grouped by a factor 3 ... 1704 - 1705 are grouped by a factor 2 ... 1706 - 1708 are grouped by a factor 3 ... 1709 - 1750 are grouped by a factor 2 ... 1751 - 1751 are single channels ... 1752 - 1781 are grouped by a factor 2 ... 1782 - 1784 are grouped by a factor 3 ... 1785 - 1785 are single channels ... 1786 - 1791 are grouped by a factor 3 ... 1792 - 1793 are grouped by a factor 2 ... 1794 - 1796 are grouped by a factor 3 ... 1797 - 1798 are grouped by a factor 2 ... 1799 - 1804 are grouped by a factor 3 ... 1805 - 1822 are grouped by a factor 2 ... 1823 - 1825 are grouped by a factor 3 ... 1826 - 1835 are grouped by a factor 2 ... 1836 - 1838 are grouped by a factor 3 ... 1839 - 1840 are grouped by a factor 2 ... 1841 - 1852 are grouped by a factor 3 ... 1853 - 1856 are grouped by a factor 2 ... 1857 - 1862 are grouped by a factor 3 ... 1863 - 1864 are grouped by a factor 2 ... 1865 - 1882 are grouped by a factor 3 ... 1883 - 1886 are grouped by a factor 4 ... 1887 - 1888 are grouped by a factor 2 ... 1889 - 1891 are grouped by a factor 3 ... 1892 - 1893 are grouped by a factor 2 ... 1894 - 1896 are grouped by a factor 3 ... 1897 - 1898 are grouped by a factor 2 ... 1899 - 1901 are grouped by a factor 3 ... 1902 - 1905 are grouped by a factor 2 ... 1906 - 1908 are grouped by a factor 3 ... 1909 - 1910 are grouped by a factor 2 ... 1911 - 1916 are grouped by a factor 3 ... 1917 - 1918 are grouped by a factor 2 ... 1919 - 1924 are grouped by a factor 3 ... 1925 - 1928 are grouped by a factor 2 ... 1929 - 1934 are grouped by a factor 3 ... 1935 - 1936 are grouped by a factor 2 ... 1937 - 1944 are grouped by a factor 4 ... 1945 - 1950 are grouped by a factor 3 ... 1951 - 1954 are grouped by a factor 4 ... 1955 - 1959 are grouped by a factor 5 ... 1960 - 1962 are grouped by a factor 3 ... 1963 - 1966 are grouped by a factor 4 ... 1967 - 1971 are grouped by a factor 5 ... 1972 - 1973 are grouped by a factor 2 ... 1974 - 1976 are grouped by a factor 3 ... 1977 - 1980 are grouped by a factor 4 ... 1981 - 1986 are grouped by a factor 3 ... 1987 - 2002 are grouped by a factor 4 ... 2003 - 2008 are grouped by a factor 3 ... 2009 - 2016 are grouped by a factor 4 ... 2017 - 2019 are grouped by a factor 3 ... 2020 - 2027 are grouped by a factor 4 ... 2028 - 2030 are grouped by a factor 3 ... 2031 - 2034 are grouped by a factor 4 ... 2035 - 2039 are grouped by a factor 5 ... 2040 - 2042 are grouped by a factor 3 ... 2043 - 2046 are grouped by a factor 4 ... 2047 - 2051 are grouped by a factor 5 ... 2052 - 2071 are grouped by a factor 4 ... 2072 - 2076 are grouped by a factor 5 ... 2077 - 2088 are grouped by a factor 4 ... 2089 - 2098 are grouped by a factor 5 ... 2099 - 2102 are grouped by a factor 4 ... 2103 - 2112 are grouped by a factor 5 ... 2113 - 2118 are grouped by a factor 6 ... 2119 - 2130 are grouped by a factor 4 ... 2131 - 2150 are grouped by a factor 5 ... 2151 - 2154 are grouped by a factor 4 ... 2155 - 2159 are grouped by a factor 5 ... 2160 - 2163 are grouped by a factor 4 ... 2164 - 2168 are grouped by a factor 5 ... 2169 - 2175 are grouped by a factor 7 ... 2176 - 2185 are grouped by a factor 5 ... 2186 - 2191 are grouped by a factor 6 ... 2192 - 2195 are grouped by a factor 4 ... 2196 - 2200 are grouped by a factor 5 ... 2201 - 2203 are grouped by a factor 3 ... 2204 - 2213 are grouped by a factor 5 ... 2214 - 2220 are grouped by a factor 7 ... 2221 - 2224 are grouped by a factor 4 ... 2225 - 2236 are grouped by a factor 6 ... 2237 - 2241 are grouped by a factor 5 ... 2242 - 2248 are grouped by a factor 7 ... 2249 - 2254 are grouped by a factor 6 ... 2255 - 2259 are grouped by a factor 5 ... 2260 - 2263 are grouped by a factor 4 ... 2264 - 2270 are grouped by a factor 7 ... 2271 - 2275 are grouped by a factor 5 ... 2276 - 2284 are grouped by a factor 9 ... 2285 - 2290 are grouped by a factor 6 ... 2291 - 2298 are grouped by a factor 8 ... 2299 - 2304 are grouped by a factor 6 ... 2305 - 2318 are grouped by a factor 7 ... 2319 - 2330 are grouped by a factor 12 ... 2331 - 2337 are grouped by a factor 7 ... 2338 - 2346 are grouped by a factor 9 ... 2347 - 2354 are grouped by a factor 8 ... 2355 - 2363 are grouped by a factor 9 ... 2364 - 2370 are grouped by a factor 7 ... 2371 - 2376 are grouped by a factor 6 ... 2377 - 2385 are grouped by a factor 9 ... 2386 - 2399 are grouped by a factor 7 ... 2400 - 2419 are grouped by a factor 10 ... 2420 - 2437 are grouped by a factor 9 ... 2438 - 2445 are grouped by a factor 8 ... 2446 - 2452 are grouped by a factor 7 ... 2453 - 2460 are grouped by a factor 8 ... 2461 - 2470 are grouped by a factor 10 ... 2471 - 2479 are grouped by a factor 9 ... 2480 - 2489 are grouped by a factor 10 ... 2490 - 2500 are grouped by a factor 11 ... 2501 - 2513 are grouped by a factor 13 ... 2514 - 2522 are grouped by a factor 9 ... 2523 - 2552 are grouped by a factor 10 ... 2553 - 2563 are grouped by a factor 11 ... 2564 - 2571 are grouped by a factor 8 ... 2572 - 2582 are grouped by a factor 11 ... 2583 - 2597 are grouped by a factor 15 ... 2598 - 2613 are grouped by a factor 8 ... 2614 - 2625 are grouped by a factor 12 ... 2626 - 2645 are grouped by a factor 20 ... 2646 - 2655 are grouped by a factor 10 ... 2656 - 2669 are grouped by a factor 14 ... 2670 - 2685 are grouped by a factor 16 ... 2686 - 2700 are grouped by a factor 15 ... 2701 - 2718 are grouped by a factor 18 ... 2719 - 2734 are grouped by a factor 16 ... 2735 - 2753 are grouped by a factor 19 ... 2754 - 2769 are grouped by a factor 16 ... 2770 - 2788 are grouped by a factor 19 ... 2789 - 2809 are grouped by a factor 21 ... 2810 - 2834 are grouped by a factor 25 ... 2835 - 2851 are grouped by a factor 17 ... 2852 - 2879 are grouped by a factor 28 ... 2880 - 2918 are grouped by a factor 39 ... 2919 - 2938 are grouped by a factor 20 ... 2939 - 2975 are grouped by a factor 37 ... 2976 - 3005 are grouped by a factor 30 ... 3006 - 3038 are grouped by a factor 33 ... 3039 - 3060 are grouped by a factor 22 ... 3061 - 3090 are grouped by a factor 30 ... 3091 - 3129 are grouped by a factor 39 ... 3130 - 3159 are grouped by a factor 30 ... 3160 - 3188 are grouped by a factor 29 ... 3189 - 3239 are grouped by a factor 51 ... 3240 - 3300 are grouped by a factor 61 ... 3301 - 3357 are grouped by a factor 57 ... 3358 - 3433 are grouped by a factor 76 ... 3434 - 3544 are grouped by a factor 111 ... 3545 - 3639 are grouped by a factor 95 ... 3640 - 3781 are grouped by a factor 142 ... 3782 - 4043 are grouped by a factor 262 ... 4044 - 4095 are grouped by a factor 52 ... --------------------------------------------- ... 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 ae403025010xi3_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 ae403025010xi0_0_3x3n066a_sr.pi;
1 spectrum in use
Spectral Data File: ae403025010xi0_0_3x3n066a_sr.pi Spectrum 1
Net count rate (cts/s) for Spectrum:1 1.479e+00 +/- 7.139e-03 (95.2 % total)
Assigned to Data Group 1 and Plot Group 1
Noticed Channels: 1-1268
Telescope: SUZAKU Instrument: XIS0 Channel Type: PI
Exposure Time: 3.136e+04 sec
Using Background File ae403025010xi0_0_3x3n066a_bg.pi
Background Exposure Time: 3.136e+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 ae403025010xi1_0_3x3n069b_sr.pi;
2 spectra in use
Spectral Data File: ae403025010xi1_0_3x3n069b_sr.pi Spectrum 2
Net count rate (cts/s) for Spectrum:2 1.751e+00 +/- 8.451e-03 (85.3 % total)
Assigned to Data Group 2 and Plot Group 2
Noticed Channels: 1-1500
Telescope: SUZAKU Instrument: XIS1 Channel Type: PI
Exposure Time: 3.136e+04 sec
Using Background File ae403025010xi1_0_3x3n069b_bg.pi
Background Exposure Time: 3.136e+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 ae403025010xi3_0_3x3n066a_sr.pi;
3 spectra in use
Spectral Data File: ae403025010xi3_0_3x3n066a_sr.pi Spectrum 3
Net count rate (cts/s) for Spectrum:3 1.522e+00 +/- 7.226e-03 (95.5 % total)
Assigned to Data Group 3 and Plot Group 3
Noticed Channels: 1-1306
Telescope: SUZAKU Instrument: XIS3 Channel Type: PI
Exposure Time: 3.136e+04 sec
Using Background File ae403025010xi3_0_3x3n066a_bg.pi
Background Exposure Time: 3.136e+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: 7 channels ignored from source number 1
ignore: 107 channels ignored from source number 2
ignore: 9 channels ignored from source number 3
!XSPEC12>ignore *:**-0.2 12.0-**;
1 channels (1) ignored in spectrum # 1
28 channels (1-28) ignored in spectrum # 2
1 channels (1) ignored in spectrum # 3
7 channels (1262-1268) ignored in spectrum # 1
70 channels (1431-1500) ignored in spectrum # 2
9 channels (1298-1306) ignored in spectrum # 3
!XSPEC12>setplot splashpage off;
!XSPEC12>setplot energy;
!XSPEC12>setplot device ae403025010xis_0_pi.gif/gif;
!XSPEC12>setplot com log y on;
!XSPEC12>setplot com rescale y;
!XSPEC12>setplot com label top SUZAKU XIS observation of V709 CAS (Sequence 403025010);
!XSPEC12>setplot com label file Exposure time: 94.1ks (total from all detectors);
!XSPEC12>setplot com time off;
!XSPEC12>plot;
!XSPEC12>exit;
XSPEC: quit
!XSPEC12>tclexit
-> Created ae403025010xis_0_pi.gif.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi0_0_3x3n066a_cl.evt
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100% completed
Total Good Bad: Region Time Phase Grade Cut
57929 57929 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
57929 57929 0 0 0 0 0
in 31364. seconds
Image has 57929 counts for 1.847 counts/sec
-> stdout output from extractor
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi1_0_3x3n069b_cl.evt
10% completed
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Total Good Bad: Region Time Phase Grade Cut
102376 102376 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
102376 102376 0 0 0 0 0
in 31364. seconds
Image has 102376 counts for 3.264 counts/sec
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi3_0_3x3n066a_cl.evt
10% completed
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Total Good Bad: Region Time Phase Grade Cut
58907 58907 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
58907 58907 0 0 0 0 0
in 31364. seconds
Image has 58907 counts for 1.878 counts/sec
-> Creating four panel plot.No of detectors read in: 30 ![XIMAGE> cpd ae403025010xis_0_im.gif/gif ![XIMAGE> cey 2000 ![XIMAGE> viewport 2x2gif ![XIMAGE> read/fits/rebin=2/size=-20 ae403025010xi0_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 = 84.000000 Copied MAP1 to MAP9 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 84. ![XIMAGE> ra_dec/ra=7.2036/dec=59.2894/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 753.505295435 Y = 727.39560162 ![XIMAGE> ra_dec/ra=7.2036/dec=59.2894/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 753.505295435 Y = 727.39560162 ![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 $exposure ks" ![XIMAGE> grid/ticks_only ![XIMAGE> read/fits/rebin=2/size=-20 ae403025010xi1_0_3x3n069b_sk.img Telescope SUZAKU XIS1 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 70.000000 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 70. ![XIMAGE> ra_dec/ra=7.2036/dec=59.2894/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 753.505295435 Y = 727.39560162 ![XIMAGE> ra_dec/ra=7.2036/dec=59.2894/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 753.505295435 Y = 727.39560162 ![XIMAGE> chh key=instrume ![XIMAGE> set detname [chh key=instrume] ![XIMAGE> chh key=exposure ![XIMAGE> expr [chh key=exposure]/1E3 ![XIMAGE> format %.1f [expr [chh key=exposure]/1E3] ![XIMAGE> set exposure [format %.1f [expr [chh key=exposure]/1E3]] ![XIMAGE> iminfo/csize=0.75 "$detname $exposure ks" ![XIMAGE> grid/ticks_only ![XIMAGE> read/fits/rebin=2/size=-20 ae403025010xi3_0_3x3n066a_sk.img Telescope SUZAKU XIS3 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 92.000000 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 92. ![XIMAGE> ra_dec/ra=7.2036/dec=59.2894/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 753.505295435 Y = 727.39560162 ![XIMAGE> ra_dec/ra=7.2036/dec=59.2894/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 753.505295435 Y = 727.39560162 ![XIMAGE> chh key=instrume ![XIMAGE> set detname [chh key=instrume] ![XIMAGE> chh key=exposure ![XIMAGE> expr [chh key=exposure]/1E3 ![XIMAGE> format %.1f [expr [chh key=exposure]/1E3] ![XIMAGE> set exposure [format %.1f [expr [chh key=exposure]/1E3]] ![XIMAGE> iminfo/csize=0.75 "$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 403025010)" ![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,"ae403025010hxd_0_wam_uf.evt",,,"HXD wam fits file name ?" outroot,s,a,"ae403025010hxd",,,"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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 249113
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 249112/249113
[ 2] HXDleapsecInit version 2.0.1
| OK: 249112/249112
[ 3] HXDmktrnlc version 2.0.0
| OK: 249112/249112
GET: 249112
*** 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 249112 249112 SINGLE
HXD:TRN:PACKET_AETIME 8 8 249112 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 249112 498224 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 249112 0 SINGLE
HXD:TRB:IBLOCK 4 4 249112 498224 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 249112 249112 SINGLE
HXD:TRN:BOARD 4 4 249112 498224 SINGLE
HXD:TRN:BLOCK 4 4 249112 498224 SINGLE
HXD:TRN:RDBIN 4 4 249112 498224 SINGLE
HXD:TRN:TBLID 4 4 249112 498224 SINGLE
HXD:TRN:DATA_SIZE 4 4 249112 498224 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 249112 498224 SINGLE
HXD:TRH:BLOCK 4 4 249112 498224 SINGLE
HXD:TRH:TIME 4 4 249112 249112 SINGLE
HXD:TRH:GB_TIME 4 4 249112 249112 SINGLE
HXD:TRH:GB_FLG 4 4 249112 498224 SINGLE
HXD:TRH:TIME_MODE 4 4 249112 498224 SINGLE
HXD:TRH:RBM 4 4 249112 498224 SINGLE
HXD:TRH:GB_FRZ 4 4 249112 498224 SINGLE
HXD:TRH:DT_MODE 4 4 249112 498224 SINGLE
HXD:TRH:SUMLD_MODE 4 4 249112 498224 SINGLE
HXD:TRH:BOARD 4 4 249112 498224 SINGLE
HXD:TRH:GB_TRG 4 4 249112 498224 SINGLE
HXD:TRB:PI 216 216 249112 0 SINGLE
HXD:TRB:PH 216 216 249112 498224 SINGLE
HXD:TRB:OVER_FLOW 4 4 249112 498224 SINGLE
HXD:TRB:PSEUDO 4 4 249112 498224 SINGLE
HXD:TRB:TRN_ANT 20 20 249112 498224 SINGLE
HXD:TRB:UD 4 4 249112 498224 SINGLE
HXD:TRB:DEAD_TIME 4 4 249112 498224 SINGLE
HXD:TRB:SUM_LD 4 4 249112 498224 SINGLE
HXD:TRB:WELL_ANT 16 16 249112 498224 SINGLE
HXD:TRN:TRN_QUALITY 4 4 249112 0 SINGLE
HXDtrnFitsRead:IROW 4 4 249112 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 249112 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 5.452 0.208 5.660 75.45
[ 2] HXDleapsecInit 0.076 0.121 0.197 2.63
[ 3] HXDmktrnlc 1.309 0.312 1.621 21.60
(others) 0.016 0.008 0.024 0.32
--------------------------------------------------------------------------
TOTAL 6.853 0.649 7.502 100.00
-> 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: ae403025010hxd_0_gsono_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
1238905 1238905 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
1238905 1238905 0 0 0 0 0
in 33382. seconds
Fits light curve has 1238905 counts for 37.11 counts/sec
-> stdout output from extractor
extractor v4.83 7 Mar 2008
No image X-axis TCRPX, set to 0
No image Y-axis TCRPX, set to 0
No image X-axis TCRVL, set to 0
No image Y-axis TCRVL, set to 0
No image X-axis TCDLT, set to 1
No image Y-axis TCDLT, set to 1
Doing file: ae403025010hxd_0_pinno_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
21679 21679 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
21679 21679 0 0 0 0 0
in 33382. seconds
Fits light curve has 21679 counts for 0.6494 counts/sec
-> lcurve cmd: color 1 on 2
lcurve 1.0 (xronos5.21)
Series 1 file 1:ae403025010hxd_0_gsono_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ V709 CAS Start Time (d) .... 14637 10:30:03.184
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14638 03:37:20.184
No. of Rows ....... 452 Bin Time (s) ...... 76.99
Right Ascension ... 7.2036 Internal time sys.. Converted to TJD
Declination ....... 59.2894 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:ae403025010hxd_0_pinno_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ V709 CAS Start Time (d) .... 14637 10:30:03.184
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14638 03:37:20.184
No. of Rows ....... 452 Bin Time (s) ...... 76.99
Right Ascension ... 7.2036 Internal time sys.. Converted to TJD
Declination ....... 59.2894 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 ... 14637.43753685185 (days) 10:30: 3:184 (h:m:s:ms)
Expected Stop .... 14638.15092805555 (days) 3:37:20:184 (h:m:s:ms)
Minimum Newbin Time 76.990000 (s)
for Maximum Newbin No.. 801
Default Newbin Time is: 120.52601 (s) (to have 1 Intv. of 512 Newbins)
Type INDEF to accept the default value
Newbin Time ...... 120.52601 (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 120.526 (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 14637 10:31: 3
Ser.1 Avg 37.10 Chisq 2506. Var 4.300 Newbs. 295
Min 29.76 Max 43.61 expVar 0.5387 Bins 452
Ser.2 Avg 0.6461 Chisq 628.3 Var 0.1832E-01 Newbs. 295
Min 0.000 Max 1.111 expVar 0.7407E-02 Bins 452
-> Creating light curves for XIS.Input sky coordinates: 7.2036000000000E+00, 5.9289400000000E+01 Output pixel coordinates: 7.5350529543480E+02, 7.2739560161984E+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,"ae403025010xi0_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,7.195136814957,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,30.698704777525,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,5.918395326193,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"7.1951",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"59.3013",,,"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,"267272654.000000",,,"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,7.20359717104833,,,"R.A. (J2000) in deg" deltaJ2000,r,a,59.2894015010075,,,"DEC. (J2000) in deg" alphaB1950,r,a,6.50727321360107,,,"R.A. (B1950) in deg" deltaB1950,r,a,59.0130631641305,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00151375130915454,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00486258764677672,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,17.7251363625601,,,"angular difference in arcsec by aberration" l,r,a,120.041658332769,,,"Galactic longitude (deg)" b,r,a,-3.45532873417728,,,"Galactic latitude (deg)" x,r,a,753.51,,,"X value of SKY coorindates (pixel)" y,r,a,727.40,,,"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,753.512081655328,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,727.405707540637,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,742.532702269948,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.492909076853,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,102.532702269948,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.492909076853,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.520898247411859,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-149.998870180691,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.510005204862,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,727.400014270846,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,742.529104718491,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.494986218744,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,944.026104718491,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.494986218744,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.05993548104722,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-4.88285479022387,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.510000000002,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,727.400000000018,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,742.529095700819,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.494991425336,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,483.029095700819,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.994991425336,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,541,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,29,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,31,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.79668033890187,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-169.699954458748,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.510000000002,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,727.400000000018,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,742.529095700819,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.494991425336,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,483.029095700819,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.994991425336,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,482,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,8,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,482,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,482,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.40440446358677,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.233952311097,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.510000000002,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,727.400000000018,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,742.529095700819,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.494991425336,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,486.029095700819,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.994991425336,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,538,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,2,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,538,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,538,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.113733671579756,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-4.3354809603818,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.510000000002,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,727.400000000018,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,742.529095700819,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.494991425336,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,475.029095700819,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.994991425336,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,549,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,37,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,39,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.393199817541051,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,73.5005357141678,,,"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 753.510 (pixel)
Y 727.400 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae403025010xi0_0_3x3n066a_cl.evt+1'
EA1 7.195136814957 (deg)
EA2 30.698704777525 (deg)
EA3 5.918395326193 (deg)
REF_ALPHA 7.1951 (deg) / 0h28m46.8s
REF_DELTA 59.3013 (deg) / +59d18m05s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267272654.000 / 2008-06-20T10:24:13 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 ( 7.2036 , 59.2894 ) [deg] / ( 0h28m48.9s , +59d17m22s )
B1950 ( 6.5073 , 59.0131 ) [deg] / ( 0h26m01.7s , +59d00m47s )
Galactic ( 120.0417 , -3.4553 ) [deg]
Aberration ( -5.4495 , -17.5053 ) [arcsec], Ang.Distance = 17.7251
XRS SKY ( 753.5121 , 727.4057 ) [pixel]
XRS FOC ( 742.5327 , 783.4929 ) [pixel]
XRS DET ( 102.5327 , 143.4929 ) [pixel]
XRS THETA/PHI 0.5209 [arcmin] / -149.9989 [deg]
XRS PIXEL = 8
HXD SKY ( 753.5100 , 727.4000 ) [pixel]
HXD FOC ( 742.5291 , 783.4950 ) [pixel]
HXD DET ( 944.0261 , 783.4950 ) [pixel]
HXD THETA/PHI 3.0599 [arcmin] / -4.8829 [deg]
XIS0 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS0 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS0 DET ( 483.0291 , 515.9950 ) [pixel]
XIS0 ACT ( 541 , 515 ) [pixel]
XIS0 RAW ( 29 , 515 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 31 , 515 ) [pixel]
XIS0 THETA/PHI 1.7967 [arcmin] / -169.7000 [deg]
XIS1 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS1 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS1 DET ( 483.0291 , 520.9950 ) [pixel]
XIS1 ACT ( 520 , 482 ) [pixel]
XIS1 RAW ( 8 , 482 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 482 ) [pixel]
XIS1 THETA/PHI 1.4044 [arcmin] / -143.2340 [deg]
XIS2 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS2 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS2 DET ( 486.0291 , 509.9950 ) [pixel]
XIS2 ACT ( 514 , 538 ) [pixel]
XIS2 RAW ( 2 , 538 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 538 ) [pixel]
XIS2 THETA/PHI 0.1137 [arcmin] / -4.3355 [deg]
XIS3 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS3 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS3 DET ( 475.0291 , 523.9950 ) [pixel]
XIS3 ACT ( 549 , 523 ) [pixel]
XIS3 RAW ( 37 , 523 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 39 , 523 ) [pixel]
XIS3 THETA/PHI 0.3932 [arcmin] / 73.5005 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae403025010xi0_0_3x3n066a_cl.evt_source.reg.tmp circle(753,727,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi0_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
57929 45754 12175 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
57929 45754 12175 0 0 0 0
in 31364. seconds
Fits light curve has 45754 counts for 1.459 counts/sec
-> Creating source region file.Input sky coordinates: 7.2036000000000E+00, 5.9289400000000E+01 Output pixel coordinates: 7.5350529543480E+02, 7.2739560161984E+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,"ae403025010xi1_0_3x3n069b_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,7.195136814957,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,30.698704777525,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,5.918395326193,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"7.1951",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"59.3013",,,"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,"267272654.000000",,,"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,7.20359717104833,,,"R.A. (J2000) in deg" deltaJ2000,r,a,59.2894015010075,,,"DEC. (J2000) in deg" alphaB1950,r,a,6.50727321360107,,,"R.A. (B1950) in deg" deltaB1950,r,a,59.0130631641305,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00151375130915454,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00486258764677672,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,17.7251363625601,,,"angular difference in arcsec by aberration" l,r,a,120.041658332769,,,"Galactic longitude (deg)" b,r,a,-3.45532873417728,,,"Galactic latitude (deg)" x,r,a,753.51,,,"X value of SKY coorindates (pixel)" y,r,a,727.40,,,"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,753.512081655328,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,727.405707540637,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,742.532702269948,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.492909076853,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,102.532702269948,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.492909076853,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.520898247411859,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-149.998870180691,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.510005204862,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,727.400014270846,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,742.529104718491,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.494986218744,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,944.026104718491,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.494986218744,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.05993548104722,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-4.88285479022387,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.510000000002,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,727.400000000018,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,742.529095700819,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.494991425336,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,483.029095700819,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.994991425336,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,541,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,29,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,31,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.79668033890187,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-169.699954458748,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.510000000002,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,727.400000000018,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,742.529095700819,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.494991425336,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,483.029095700819,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.994991425336,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,482,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,8,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,482,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,482,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.40440446358677,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.233952311097,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.510000000002,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,727.400000000018,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,742.529095700819,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.494991425336,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,486.029095700819,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.994991425336,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,538,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,2,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,538,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,538,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.113733671579756,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-4.3354809603818,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.510000000002,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,727.400000000018,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,742.529095700819,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.494991425336,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,475.029095700819,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.994991425336,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,549,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,37,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,39,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.393199817541051,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,73.5005357141678,,,"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 753.510 (pixel)
Y 727.400 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae403025010xi1_0_3x3n069b_cl.evt+1'
EA1 7.195136814957 (deg)
EA2 30.698704777525 (deg)
EA3 5.918395326193 (deg)
REF_ALPHA 7.1951 (deg) / 0h28m46.8s
REF_DELTA 59.3013 (deg) / +59d18m05s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267272654.000 / 2008-06-20T10:24:13 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 ( 7.2036 , 59.2894 ) [deg] / ( 0h28m48.9s , +59d17m22s )
B1950 ( 6.5073 , 59.0131 ) [deg] / ( 0h26m01.7s , +59d00m47s )
Galactic ( 120.0417 , -3.4553 ) [deg]
Aberration ( -5.4495 , -17.5053 ) [arcsec], Ang.Distance = 17.7251
XRS SKY ( 753.5121 , 727.4057 ) [pixel]
XRS FOC ( 742.5327 , 783.4929 ) [pixel]
XRS DET ( 102.5327 , 143.4929 ) [pixel]
XRS THETA/PHI 0.5209 [arcmin] / -149.9989 [deg]
XRS PIXEL = 8
HXD SKY ( 753.5100 , 727.4000 ) [pixel]
HXD FOC ( 742.5291 , 783.4950 ) [pixel]
HXD DET ( 944.0261 , 783.4950 ) [pixel]
HXD THETA/PHI 3.0599 [arcmin] / -4.8829 [deg]
XIS0 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS0 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS0 DET ( 483.0291 , 515.9950 ) [pixel]
XIS0 ACT ( 541 , 515 ) [pixel]
XIS0 RAW ( 29 , 515 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 31 , 515 ) [pixel]
XIS0 THETA/PHI 1.7967 [arcmin] / -169.7000 [deg]
XIS1 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS1 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS1 DET ( 483.0291 , 520.9950 ) [pixel]
XIS1 ACT ( 520 , 482 ) [pixel]
XIS1 RAW ( 8 , 482 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 482 ) [pixel]
XIS1 THETA/PHI 1.4044 [arcmin] / -143.2340 [deg]
XIS2 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS2 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS2 DET ( 486.0291 , 509.9950 ) [pixel]
XIS2 ACT ( 514 , 538 ) [pixel]
XIS2 RAW ( 2 , 538 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 538 ) [pixel]
XIS2 THETA/PHI 0.1137 [arcmin] / -4.3355 [deg]
XIS3 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS3 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS3 DET ( 475.0291 , 523.9950 ) [pixel]
XIS3 ACT ( 549 , 523 ) [pixel]
XIS3 RAW ( 37 , 523 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 39 , 523 ) [pixel]
XIS3 THETA/PHI 0.3932 [arcmin] / 73.5005 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae403025010xi1_0_3x3n069b_cl.evt_source.reg.tmp circle(753,727,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi1_0_3x3n069b_cl.evt
10% completed
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Total Good Bad: Region Time Phase Grade Cut
102376 56324 46052 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
102376 56324 46052 0 0 0 0
in 31364. seconds
Fits light curve has 56324 counts for 1.796 counts/sec
-> Creating source region file.Input sky coordinates: 7.2036000000000E+00, 5.9289400000000E+01 Output pixel coordinates: 7.5350529543480E+02, 7.2739560161984E+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,"ae403025010xi3_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,7.195136814957,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,30.698704777525,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,5.918395326193,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"7.1951",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"59.3013",,,"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,"267272654.000000",,,"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,7.20359717104833,,,"R.A. (J2000) in deg" deltaJ2000,r,a,59.2894015010075,,,"DEC. (J2000) in deg" alphaB1950,r,a,6.50727321360107,,,"R.A. (B1950) in deg" deltaB1950,r,a,59.0130631641305,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00151375130915454,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00486258764677672,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,17.7251363625601,,,"angular difference in arcsec by aberration" l,r,a,120.041658332769,,,"Galactic longitude (deg)" b,r,a,-3.45532873417728,,,"Galactic latitude (deg)" x,r,a,753.51,,,"X value of SKY coorindates (pixel)" y,r,a,727.40,,,"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,753.512081655328,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,727.405707540637,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,742.532702269948,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.492909076853,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,102.532702269948,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.492909076853,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.520898247411859,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-149.998870180691,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,8,,,"PIXEL number of XRS" hxd_skyx,r,a,753.510005204862,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,727.400014270846,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,742.529104718491,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.494986218744,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,944.026104718491,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.494986218744,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.05993548104722,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-4.88285479022387,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,753.510000000002,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,727.400000000018,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,742.529095700819,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.494991425336,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,483.029095700819,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.994991425336,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,541,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,2,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,29,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,31,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.79668033890187,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-169.699954458748,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,753.510000000002,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,727.400000000018,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,742.529095700819,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.494991425336,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,483.029095700819,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.994991425336,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,482,,,"ACTY value of XIS1 ACT coorindates (pixel)" xis1_segment,i,a,2,,,"SEGMENT number of the XIS1" xis1_rawx,i,a,8,,,"RAWX value of XIS1 RAW coorindates (pixel)" xis1_rawy,i,a,482,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,482,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,1.40440446358677,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-143.233952311097,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,753.510000000002,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,727.400000000018,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,742.529095700819,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.494991425336,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,486.029095700819,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.994991425336,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,538,,,"ACTY value of XIS2 ACT coorindates (pixel)" xis2_segment,i,a,2,,,"SEGMENT number of the XIS2" xis2_rawx,i,a,2,,,"RAWX value of XIS2 RAW coorindates (pixel)" xis2_rawy,i,a,538,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,538,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.113733671579756,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-4.3354809603818,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,753.510000000002,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,727.400000000018,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,742.529095700819,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.494991425336,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,475.029095700819,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.994991425336,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,549,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,2,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,37,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,39,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.393199817541051,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,73.5005357141678,,,"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 753.510 (pixel)
Y 727.400 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae403025010xi3_0_3x3n066a_cl.evt+1'
EA1 7.195136814957 (deg)
EA2 30.698704777525 (deg)
EA3 5.918395326193 (deg)
REF_ALPHA 7.1951 (deg) / 0h28m46.8s
REF_DELTA 59.3013 (deg) / +59d18m05s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 267272654.000 / 2008-06-20T10:24:13 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 ( 7.2036 , 59.2894 ) [deg] / ( 0h28m48.9s , +59d17m22s )
B1950 ( 6.5073 , 59.0131 ) [deg] / ( 0h26m01.7s , +59d00m47s )
Galactic ( 120.0417 , -3.4553 ) [deg]
Aberration ( -5.4495 , -17.5053 ) [arcsec], Ang.Distance = 17.7251
XRS SKY ( 753.5121 , 727.4057 ) [pixel]
XRS FOC ( 742.5327 , 783.4929 ) [pixel]
XRS DET ( 102.5327 , 143.4929 ) [pixel]
XRS THETA/PHI 0.5209 [arcmin] / -149.9989 [deg]
XRS PIXEL = 8
HXD SKY ( 753.5100 , 727.4000 ) [pixel]
HXD FOC ( 742.5291 , 783.4950 ) [pixel]
HXD DET ( 944.0261 , 783.4950 ) [pixel]
HXD THETA/PHI 3.0599 [arcmin] / -4.8829 [deg]
XIS0 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS0 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS0 DET ( 483.0291 , 515.9950 ) [pixel]
XIS0 ACT ( 541 , 515 ) [pixel]
XIS0 RAW ( 29 , 515 ) [pixel] at SEGMENT = 2
XIS0 PPU ( 31 , 515 ) [pixel]
XIS0 THETA/PHI 1.7967 [arcmin] / -169.7000 [deg]
XIS1 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS1 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS1 DET ( 483.0291 , 520.9950 ) [pixel]
XIS1 ACT ( 520 , 482 ) [pixel]
XIS1 RAW ( 8 , 482 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 482 ) [pixel]
XIS1 THETA/PHI 1.4044 [arcmin] / -143.2340 [deg]
XIS2 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS2 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS2 DET ( 486.0291 , 509.9950 ) [pixel]
XIS2 ACT ( 514 , 538 ) [pixel]
XIS2 RAW ( 2 , 538 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 538 ) [pixel]
XIS2 THETA/PHI 0.1137 [arcmin] / -4.3355 [deg]
XIS3 SKY ( 753.5100 , 727.4000 ) [pixel]
XIS3 FOC ( 742.5291 , 783.4950 ) [pixel]
XIS3 DET ( 475.0291 , 523.9950 ) [pixel]
XIS3 ACT ( 549 , 523 ) [pixel]
XIS3 RAW ( 37 , 523 ) [pixel] at SEGMENT = 2
XIS3 PPU ( 39 , 523 ) [pixel]
XIS3 THETA/PHI 0.3932 [arcmin] / 73.5005 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae403025010xi3_0_3x3n066a_cl.evt_source.reg.tmp circle(753,727,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae403025010xi3_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
58907 47016 11891 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
58907 47016 11891 0 0 0 0
in 31364. seconds
Fits light curve has 47016 counts for 1.499 counts/sec
-> Ploting light curves for XIS.
lcurve 1.0 (xronos5.21)
Series 1 file 1:ae403025010xi0_0_3x3n066a_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ V709 CAS Start Time (d) .... 14637 10:30:03.184
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14638 01:24:13.116
No. of Rows ....... 1170 Bin Time (s) ...... 27.07
Right Ascension ... 7.2036 Internal time sys.. Converted to TJD
Declination ....... 59.2894 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:ae403025010xi1_0_3x3n069b_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ V709 CAS Start Time (d) .... 14637 10:30:03.184
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14638 01:24:13.116
No. of Rows ....... 1170 Bin Time (s) ...... 27.07
Right Ascension ... 7.2036 Internal time sys.. Converted to TJD
Declination ....... 59.2894 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:ae403025010xi3_0_3x3n066a_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ V709 CAS Start Time (d) .... 14637 10:30:03.184
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14638 01:24:13.116
No. of Rows ....... 1170 Bin Time (s) ...... 27.07
Right Ascension ... 7.2036 Internal time sys.. Converted to TJD
Declination ....... 59.2894 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 ... 14637.43753685185 (days) 10:30: 3:184 (h:m:s:ms)
Expected Stop .... 14638.05848514101 (days) 1:24:13:116 (h:m:s:ms)
Minimum Newbin Time 27.070000 (s)
for Maximum Newbin No.. 1982
Default Newbin Time is: 104.90796 (s) (to have 1 Intv. of 512 Newbins)
Type INDEF to accept the default value
Newbin Time ...... 104.90796 (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 104.908 (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 14637 10:30:55
Ser.1 Avg 1.458 Chisq 1666. Var 0.8995E-01 Newbs. 311
Min 0.6261 Max 2.503 expVar 0.1653E-01 Bins 1170
Ser.2 Avg 1.802 Chisq 1780. Var 0.1313 Newbs. 311
Min 0.5217 Max 3.214 expVar 0.2111E-01 Bins 1170
Ser.3 Avg 1.499 Chisq 1773. Var 0.9753E-01 Newbs. 311
Min 0.5739 Max 2.340 expVar 0.1713E-01 Bins 1170
-> Creating light curves for BST.