The following information is also available:
infile,f,a,"ae503032010.att",,,"input attitude file name" outfile,f,a,"ae503032010.att.tmp",,,"output attitude file name" orbit,f,a,"ae503032010.orb",,,"orbit file name" hkfile,f,a,"ae503032010.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 'ae503032010.att'
OUTFILE 'ae503032010.att.tmp'
ORBIT 'ae503032010.orb'
HKFILE 'ae503032010.hk'
HK_TIME_MARGIN 60.0 (s)
CLOBBER YES
aste_orbit: reading 'ae503032010.orb[EXTNAME=PAR_ORBIT,EXTVER=0]' ...
nrow=28805, nkp=25921, tstart=267753601.0, tstop=269308801.0
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae503032010.hk'
aste_gethk-2.5: t=268379190.090 < TSTART=268465265.297 for 'HK_XIS_RAD6_T1_CAL' in 'ae503032010.hk'
aeattcor: INFO: TSTART=268465265.3 for ae503032010.hk
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae503032010.hk'
aste_gethk-2.5: found 'HK_XIS_RAD8_T1_CAL' at hdu=3, col=138 in 'ae503032010.hk'
aste_gethk-2.5: t=268495155.575 > TSTOP=268495153.294 for 'HK_XIS_RAD6_T1_CAL'
aeattcor: INFO: TSTOP=268495153.3 for ae503032010.hk
aste_gethk-2.5: found 'HK_XIS_RAD6_T1_CAL' at hdu=3, col=134 in 'ae503032010.hk'
NUM_CORR = 37031 / number of corrected Euler angles
AVG_LAMB = 160.2405 / average ecliptic longitude (deg)
AVG_BETA = -59.5990 / average ecliptic latitude (deg)
AVG_XOFF = 31.2869 / average DETX offset (pixel)
AVG_YOFF = 7.4058 / average DETY offset (pixel)
SGM_XOFF = 4.7046 / 1 sigma DETX offset standard deviation (pixel)
SGM_YOFF = 6.5096 / 1 sigma DETY offset standard deviation (pixel)
Event... 1 (0)
aeattcor: INFO: created 'ae503032010.att.tmp'
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 1
QUIT: 1 |
<--- [ 1] aeattcor version 1.2
| OK: 0/1
GET: 0
*** results of Event selection *** < Number of selects : 0 > (EVS Ver.3.4)
BNK: (data storge system) Ver.3.4
# of key : 0/5000
buffer size : 120000
buffer used : 0
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] aeattcor 4.537 1.481 6.018 99.59
(others) 0.012 0.013 0.025 0.41
--------------------------------------------------------------------------
TOTAL 4.549 1.494 6.043 100.00
-> aeattcor successful for ae503032010.att.attitude,f,a,"ae503032010.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 'ae503032010.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=268465264.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=268495155.0
aste_aspect version 1.8
aspecting attitude: ae503032010.att
TELESCOP='SUZAKU', OBJECT='VELA JR P20', (RA,DEC)=(133.6020, -46.3260)
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: 268379190.089929 268546796.693073 167606.603144
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-03 05:46:29 (54650.24061447)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-05 04:19:55 (54652.18050571)
aspecting START STOP dT: 268465264.000000 268495155.000000 29891.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-04 05:41:03 (54651.23684028)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-04 13:59:14 (54651.58280093)
averaging attitude in 60 sec sampling, 499 points
Sample Time : 60.0 s Number of Accept / Sample : 499 / 499
TIME START STOP TELAPSE (s) : 268465264.0 268495155.0 29891.0
START DATE TIME in UTC (MJD): 2008-07-04 05:41:03 (54651.23684028)
STOP DATE TIME in UTC (MJD): 2008-07-04 13:59:14 (54651.58280093)
Mean [MEDIAN] Euler angles : 133.617543 136.327153 103.000350
RA DEC SUN ANGLE
Mean Sun position (deg) : 103.773150 22.841426
Mean aberration (arcsec) : -25.086346 -6.580789
Mean satellite X-axis (deg) : 214.137178 8.936617 104.862589
Mean satellite Y-axis (deg) : 115.914530 42.286659 21.919403
Mean satellite Z-axis (deg) : 133.617543 -46.327153 74.263022
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 133.617543 -46.327153 346.999650
Average 133.617003 -46.326452 347.000149
Minimum 133.613675 -46.330827 346.996415
Maximum 133.621037 -46.320854 347.004266 0.402043
Sigma (RMS) 0.001635 0.002725 0.001737 0.183270
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '503032010' / Observation identification string
OBSERVER= 'YASUNOBU UCHIYAMA' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'VELA JR P20' / name of observed object
RA_OBJ = 133.6020 / planned target R.A.(deg)
DEC_OBJ = -46.3260 / planned target DEC.(deg)
RA_NOM = 133.6175 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = -46.3272 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 346.9997 / nominal position angle from north to DETY(deg)
MEAN_EA1= 133.617543148208 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 136.327152587390 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 103.000349776589 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae503032010.att' / name of the satellite attitude file
DATE-OBS= '2008-07-04T05:41:03'/ start date of observations (UT)
DATE-END= '2008-07-04T13:59:14'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 133.6175 / average optical axis location R.A.(deg)
DEC_PNT = -46.3272 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 133.6998 / average optical axis location R.A.(deg)
DEC_PNT = -46.3140 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.5869 / average optical axis location R.A.(deg)
DEC_PNT = -46.3331 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.6048 / average optical axis location R.A.(deg)
DEC_PNT = -46.3391 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.6295 / average optical axis location R.A.(deg)
DEC_PNT = -46.3209 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.6273 / average optical axis location R.A.(deg)
DEC_PNT = -46.3147 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae503032010hxd_0_wam.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 2] Processing 'ae503032010hxd_0_wel.fff'
+0: TELESCOP='SUZAKU', INSTRUME='HXD'
+1: TELESCOP='SUZAKU', INSTRUME='HXD'
+2: TELESCOP='SUZAKU', INSTRUME='HXD'
[ 3] Processing 'ae503032010xi0_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 'ae503032010xi1_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'
[ 5] Processing 'ae503032010xi3_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'
[ 6] Processing 'ae503032010.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=''
[ 7] Processing 'ae503032010hxd_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'
[ 8] Processing 'ae503032010xi0_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'
[ 9] Processing 'ae503032010xi1_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'
[10] Processing 'ae503032010xi2_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'
[11] Processing 'ae503032010xi3_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'
[12] Processing 'ae503032010xrs_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'
[13] Processing 'ae503032010xi0_0_066.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS0'
+1: TELESCOP='SUZAKU', INSTRUME='XIS0'
[14] Processing 'ae503032010xi1_0_069.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS1'
+1: TELESCOP='SUZAKU', INSTRUME='XIS1'
[15] Processing 'ae503032010xi2_0_000.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS2'
+1: TELESCOP='SUZAKU', INSTRUME='XIS2'
[16] Processing 'ae503032010xi3_0_066.gti'
+0: TELESCOP='SUZAKU', INSTRUME='XIS3'
+1: TELESCOP='SUZAKU', INSTRUME='XIS3'
[17] Processing 'ae503032010.orb'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
+2: TELESCOP='SUZAKU', INSTRUME=''
[18] Processing 'ae503032010.att'
+0: TELESCOP='SUZAKU', INSTRUME=''
+1: TELESCOP='SUZAKU', INSTRUME=''
[19] Processing 'ae503032010.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: 20
QUIT: 1 |
<--- [ 1] aeaspect version 2.3
| OK: 19/20
GET: 19
*** 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 1.805 3.628 5.433 99.43
(others) 0.023 0.008 0.031 0.57
--------------------------------------------------------------------------
TOTAL 1.828 3.636 5.464 100.00
-> Nominal spacecraft Euler angles: Phi=133.617543148208 Theta=136.327152587390 Psi=103.000349776589outfile,f,a,"ae503032010.ehk",,,"output .ehk file" orbit,f,a,"ae503032010.orb",,,"input orbit file" attitude,f,a,"ae503032010.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,268465206.784906,,,"start time" stop_time,r,a,268495215.528031,,,"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 'ae503032010.ehk'
ORBIT 'ae503032010.orb'
ATTITUDE 'ae503032010.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 268465206.784906
TSTOP 268495215.528031
TIME_COL_NAME ''
STEP_SEC 1.0
MARGIN_SEC 60.0
CLOBBER YES
aste_orbit: reading 'ae503032010.orb[EXTNAME=PAR_ORBIT,EXTVER=0]' ...
nrow=28805, nkp=25921, tstart=267753601.0, tstop=269308801.0
aemkehk: generate TIME from 268465146.000 to 268495276.000,
in 1.0 sec step, 30131 rows
aemkehk: creating ehk file 'ae503032010.ehk'
Event... 1 (0)
aemkehk: 'ae503032010.ehk' created
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 30132
QUIT: 1 |
<--- [ 1] AEmkEHKtimeGen version 2.4
| OK: 30131/30132
[ 2] AEmkEHKfitsWrite version 2.4
| OK: 30131/30131
GET: 30131
*** 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 30131 30131 SINGLE
ASTE:EHK:EULER1 8 8 30131 0 SINGLE
ASTE:EHK:EULER2 8 8 30131 0 SINGLE
ASTE:EHK:EULER3 8 8 30131 0 SINGLE
ASTE:EHK:FOC_RA 8 8 30131 0 SINGLE
ASTE:EHK:FOC_DEC 8 8 30131 0 SINGLE
ASTE:EHK:FOC_ROLL 8 8 30131 0 SINGLE
ASTE:EHK:DLT_RA 8 8 30131 0 SINGLE
ASTE:EHK:DLT_DEC 8 8 30131 0 SINGLE
ASTE:EHK:DLT_ROLL 8 8 30131 0 SINGLE
ASTE:EHK:ANG_DIST 8 8 30131 0 SINGLE
ASTE:EHK:SAT_ALT 8 8 30131 0 SINGLE
ASTE:EHK:SAT_LON 8 8 30131 0 SINGLE
ASTE:EHK:SAT_LAT 8 8 30131 0 SINGLE
ASTE:EHK:ELV 8 8 30131 0 SINGLE
ASTE:EHK:DYE_ELV 8 8 30131 0 SINGLE
ASTE:EHK:NTE_ELV 8 8 30131 0 SINGLE
ASTE:EHK:SUN_ALT 8 8 30131 0 SINGLE
ASTE:EHK:T_DY_NT 8 8 30131 0 SINGLE
ASTE:EHK:TN_DY_NT 8 8 30131 0 SINGLE
ASTE:EHK:COR 8 8 30131 0 SINGLE
ASTE:EHK:COR2 8 8 30131 0 SINGLE
ASTE:EHK:SAA 4 4 30131 0 SINGLE
ASTE:EHK:T_SAA 8 8 30131 0 SINGLE
ASTE:EHK:TN_SAA 8 8 30131 0 SINGLE
ASTE:EHK:SAA_HXD 4 4 30131 0 SINGLE
ASTE:EHK:T_SAA_HXD 8 8 30131 0 SINGLE
ASTE:EHK:TN_SAA_HXD 8 8 30131 0 SINGLE
ASTE:EHK:ZGMAG_ANG 8 8 30131 0 SINGLE
ASTE:EHK:ZGMAG_PHI 8 8 30131 0 SINGLE
ASTE:EHK:ZE_ANG 8 8 30131 0 SINGLE
ASTE:EHK:ZE_PHI 8 8 30131 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] AEmkEHKtimeGen 0.165 0.034 0.199 6.75
[ 2] AEmkEHKfitsWrite 2.659 0.069 2.728 92.47
(others) 0.016 0.007 0.023 0.78
--------------------------------------------------------------------------
TOTAL 2.840 0.110 2.950 100.00
-> aemkehk created ae503032010.ehk.attitude,f,a,"ae503032010.att",,,"input attitude file" filelist,f,a,"ae503032010.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 'ae503032010.att'
MOD_FILE_LIST 'ae503032010.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=268465264.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=268495155.0
aste_aspect version 1.8
aspecting attitude: ae503032010.att
TELESCOP='SUZAKU', OBJECT='VELA JR P20', (RA,DEC)=(133.6020, -46.3260)
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: 268379190.089929 268546796.693073 167606.603144
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-03 05:46:29 (54650.24061447)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-05 04:19:55 (54652.18050571)
aspecting START STOP dT: 268465264.000000 268495155.000000 29891.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-04 05:41:03 (54651.23684028)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-04 13:59:14 (54651.58280093)
averaging attitude in 60 sec sampling, 499 points
Sample Time : 60.0 s Number of Accept / Sample : 499 / 499
TIME START STOP TELAPSE (s) : 268465264.0 268495155.0 29891.0
START DATE TIME in UTC (MJD): 2008-07-04 05:41:03 (54651.23684028)
STOP DATE TIME in UTC (MJD): 2008-07-04 13:59:14 (54651.58280093)
Mean [MEDIAN] Euler angles : 133.617543 136.327153 103.000350
RA DEC SUN ANGLE
Mean Sun position (deg) : 103.773150 22.841426
Mean aberration (arcsec) : -25.086346 -6.580789
Mean satellite X-axis (deg) : 214.137178 8.936617 104.862589
Mean satellite Y-axis (deg) : 115.914530 42.286659 21.919403
Mean satellite Z-axis (deg) : 133.617543 -46.327153 74.263022
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 133.617543 -46.327153 346.999650
Average 133.617003 -46.326452 347.000149
Minimum 133.613675 -46.330827 346.996415
Maximum 133.621037 -46.320854 347.004266 0.402043
Sigma (RMS) 0.001635 0.002725 0.001737 0.183270
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '503032010' / Observation identification string
OBSERVER= 'YASUNOBU UCHIYAMA' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'VELA JR P20' / name of observed object
RA_OBJ = 133.6020 / planned target R.A.(deg)
DEC_OBJ = -46.3260 / planned target DEC.(deg)
RA_NOM = 133.6175 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = -46.3272 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 346.9997 / nominal position angle from north to DETY(deg)
MEAN_EA1= 133.617543148208 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 136.327152587390 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 103.000349776589 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae503032010.att' / name of the satellite attitude file
DATE-OBS= '2008-07-04T05:41:03'/ start date of observations (UT)
DATE-END= '2008-07-04T13:59:14'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 133.6175 / average optical axis location R.A.(deg)
DEC_PNT = -46.3272 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 133.6998 / average optical axis location R.A.(deg)
DEC_PNT = -46.3140 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.5869 / average optical axis location R.A.(deg)
DEC_PNT = -46.3331 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.6048 / average optical axis location R.A.(deg)
DEC_PNT = -46.3391 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.6295 / average optical axis location R.A.(deg)
DEC_PNT = -46.3209 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.6273 / average optical axis location R.A.(deg)
DEC_PNT = -46.3147 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae503032010.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 0.245 0.028 0.273 85.05
(others) 0.036 0.012 0.048 14.95
--------------------------------------------------------------------------
TOTAL 0.281 0.040 0.321 100.00
-> Fixing TNULL values.Reading ASCII configuration file /aps/subsys/proc/ae/lists/makefilter.config-> newmakefilter created ae503032010.mkf.
Time column is TIME ORDERED-> Contents of aeaspect.par
attitude,f,a,"ae503032010.att",,,"input attitude file" filelist,f,a,"ae503032010.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 'ae503032010.att'
MOD_FILE_LIST 'ae503032010.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=268465264.0
aeaspect: date_end='MNV_NEXT' found in attitude header, t=268495155.0
aste_aspect version 1.8
aspecting attitude: ae503032010.att
TELESCOP='SUZAKU', OBJECT='VELA JR P20', (RA,DEC)=(133.6020, -46.3260)
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: 268379190.089929 268546796.693073 167606.603144
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-03 05:46:29 (54650.24061447)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-05 04:19:55 (54652.18050571)
aspecting START STOP dT: 268465264.000000 268495155.000000 29891.000000
START in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-04 05:41:03 (54651.23684028)
STOP in yyyy-mm-dd hh:mm:ss (MJD): 2008-07-04 13:59:14 (54651.58280093)
averaging attitude in 60 sec sampling, 499 points
Sample Time : 60.0 s Number of Accept / Sample : 499 / 499
TIME START STOP TELAPSE (s) : 268465264.0 268495155.0 29891.0
START DATE TIME in UTC (MJD): 2008-07-04 05:41:03 (54651.23684028)
STOP DATE TIME in UTC (MJD): 2008-07-04 13:59:14 (54651.58280093)
Mean [MEDIAN] Euler angles : 133.617543 136.327153 103.000350
RA DEC SUN ANGLE
Mean Sun position (deg) : 103.773150 22.841426
Mean aberration (arcsec) : -25.086346 -6.580789
Mean satellite X-axis (deg) : 214.137178 8.936617 104.862589
Mean satellite Y-axis (deg) : 115.914530 42.286659 21.919403
Mean satellite Z-axis (deg) : 133.617543 -46.327153 74.263022
RA(deg) DEC(deg) ROLL(deg) OFFSET(arcmin)
Median 133.617543 -46.327153 346.999650
Average 133.617003 -46.326452 347.000149
Minimum 133.613675 -46.330827 346.996415
Maximum 133.621037 -46.320854 347.004266 0.402043
Sigma (RMS) 0.001635 0.002725 0.001737 0.183270
aeaspect: keywords to be updated are ...
OBS_MODE= 'POINTING' / observation mode (e.g. POINTING/SLEW)
OBS_ID = '503032010' / Observation identification string
OBSERVER= 'YASUNOBU UCHIYAMA' / Principal Investigator
OBS_REM = ' ' / remark on observation
NOM_PNT = 'XIS ' / AimPointInDETXY:XIS=(0,0),HXD=(-3.5,0)[arcmin]
OBJECT = 'VELA JR P20' / name of observed object
RA_OBJ = 133.6020 / planned target R.A.(deg)
DEC_OBJ = -46.3260 / planned target DEC.(deg)
RA_NOM = 133.6175 / nominal satellite pointing direction R.A.(deg)
DEC_NOM = -46.3272 / nominal satellite pointing direction DEC.(deg)
PA_NOM = 346.9997 / nominal position angle from north to DETY(deg)
MEAN_EA1= 133.617543148208 / mean of the 1st ZYZ-Euler angle (deg)
MEAN_EA2= 136.327152587390 / mean of the 2nd ZYZ-Euler angle (deg)
MEAN_EA3= 103.000349776589 / mean of the 3rd ZYZ-Euler angle (deg)
ATT_FILE= 'ae503032010.att' / name of the satellite attitude file
DATE-OBS= '2008-07-04T05:41:03'/ start date of observations (UT)
DATE-END= '2008-07-04T13:59:14'/ end date of observations (UT)
[XRS]
TELDEF = 'ae_xrs_teldef_20050622.fits' / name of the telescope definition file
RA_PNT = 133.6175 / average optical axis location R.A.(deg)
DEC_PNT = -46.3272 / average optical axis location DEC.(deg)
[HXD]
TELDEF = 'ae_hxd_teldef_20060810.fits' / name of the telescope definition file
RA_PNT = 133.6998 / average optical axis location R.A.(deg)
DEC_PNT = -46.3140 / average optical axis location DEC.(deg)
[XIS0]
TELDEF = 'ae_xi0_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.5869 / average optical axis location R.A.(deg)
DEC_PNT = -46.3331 / average optical axis location DEC.(deg)
[XIS1]
TELDEF = 'ae_xi1_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.6048 / average optical axis location R.A.(deg)
DEC_PNT = -46.3391 / average optical axis location DEC.(deg)
[XIS2]
TELDEF = 'ae_xi2_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.6295 / average optical axis location R.A.(deg)
DEC_PNT = -46.3209 / average optical axis location DEC.(deg)
[XIS3]
TELDEF = 'ae_xi3_teldef_20080303.fits' / name of the telescope definition file
RA_PNT = 133.6273 / average optical axis location R.A.(deg)
DEC_PNT = -46.3147 / average optical axis location DEC.(deg)
Event... 1 (0)
[ 1] Processing 'ae503032010.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 0.328 0.255 0.583 92.10
(others) 0.042 0.008 0.050 7.90
--------------------------------------------------------------------------
TOTAL 0.370 0.263 0.633 100.00
-> Generating filter file ae503032010xi0_0.filter.Reading ASCII configuration file ae503032010xi0_0.config-> newmakefilter created ae503032010xi0_0.filter.
Time column is TIME ORDERED-> Generating filter file ae503032010xi1_0.filter.
Reading ASCII configuration file ae503032010xi1_0.config-> newmakefilter created ae503032010xi1_0.filter.
Time column is TIME ORDERED-> Generating filter file ae503032010xi2_0.filter.
Reading ASCII configuration file ae503032010xi2_0.config-> newmakefilter created ae503032010xi2_0.filter.
Time column is TIME ORDERED-> Generating filter file ae503032010xi3_0.filter.
Reading ASCII configuration file ae503032010xi3_0.config-> newmakefilter created ae503032010xi3_0.filter.
Time column is TIME ORDERED
hk_dir,s,hl,"./",,,"HXD HK file directory ?" hk_file,s,hl,"ae503032010hxd_0.hk",,,"HXD HK file name ?" WPU,s,hl,"0123",,,"WPU board IDs ?" gti_fname,s,hl,"ae503032010hxd_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 = ae503032010hxd_0.hk hxdgtigen: WPU = 0123 hxdgtigen: fifo full = yes hxdgtigen: output gti = ae503032010hxd_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 ae503032010hxd_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,"ae503032010hxd_0_wel.fff",,,"HXD event fits file name ?" tim_filename,f,a,"ae503032010.tim",,,"input .tim FITS file name (HXDtimeSet)" leapfile,f,a,"CALDB",,,"leapsec file name" hklist_name,f,a,"ae503032010hxd_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 'ae503032010.tim[TIME_PACKETS_SEL]' ...
ntpk=23
aste_ti2time: reading 'ae503032010.tim[DP_TIMC]' ...
ndpk=77218, t=268261905.426 - 268796121.350
aste_ti2time: reading 'ae503032010.tim[DP_DHU_AVG]' ...
1: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=1,d=0
2: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
3: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
4: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
5: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
6: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
7: t0=268362517,N0=3170107392,Y=4502841/4304976,f=16777218.693,j=0,d=0
8: t0=268368597,N0=3195011072,Y=4304976/2614672,f=16777218.503,j=0,d=0
9: t0=268430517,N0=3448635392,Y=2614672/2276627,f=16777218.465,j=0,d=0
10: t0=268442741,N0=3498704896,Y=2276627/2104692,f=16777218.411,j=0,d=0
11: t0=268448821,N0=3523608576,Y=2104692/1931388,f=16777218.568,j=0,d=0
12: t0=268454869,N0=3548381184,Y=1931388/455270,f=16777218.475,j=0,d=0
13: t0=268516821,N0=3802136576,Y=455270/100558,f=16777218.485,j=0,d=0
14: t0=268529045,N0=3852206080,Y=100558/-70520,f=16777218.500,j=0,d=0
15: t0=268535125,N0=3877109760,Y=-70520/-247914,f=16777218.693,j=0,d=0
16: t0=268541173,N0=3901882368,Y=-247914/-1581585,f=16777218.474,j=0,d=0
17: t0=268597013,N0=4130603008,Y=-1581585/-1746124,f=16777218.363,j=0,d=0
18: t0=268603125,N0=4155637760,Y=-1746124/-2103382,f=16777218.594,j=0,d=0
19: t0=268615317,N0=4205576192,Y=-2103382/-2277974,f=16777218.404,j=0,d=0
20: t0=268621429,N0=4230610944,Y=-2277974/-5973081,f=16777218.489,j=0,d=0
21: t0=268769621,N0=542638080,Y=-5973081/-6140670,f=16777218.588,j=0,d=0
22: t0=268775765,N0=567803904,Y=-6140670/-6492479,f=16777218.546,j=0,d=0
23: t0=268787957,N0=617742336,Y=-6492479/-6663190,f=16777218.441,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae503032010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 4721993
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 4721992/4721993
[ 2] HXDleapsecInit version 2.0.1
| OK: 4721992/4721992
[ 3] HXDgethkInit version 0.1.0
| OK: 4721992/4721992
[ 4] HXDfwelTimeFITS version 0.3.8
| OK: 4721992/4721992
[ 5] HXDfwelTime version 2.0.0
| OK: 4721992/4721992
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 4721992/4721992
GET: 4721992
*** 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 4721992 0 SINGLE
HXD:WEL:EV_TIME 8 8 9443984 4721992 SINGLE
HXD:WEL:MTI 4 4 9443984 4721992 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 4721992 4721992 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_RESERV 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 4721992 4721992 SINGLE
HXD:WEL:DET_TYPE 4 4 4721992 4721992 SINGLE
HXD:WEL:PI_FAST 4 4 4721992 4721992 SINGLE
HXD:WEL:PI_SLOW 4 4 4721992 4721992 SINGLE
HXD:WEL:PI_PIN 16 16 4721992 4721992 SINGLE
HXD:WEL:UPI_FAST 8 8 4721992 4721992 SINGLE
HXD:WEL:UPI_SLOW 8 8 4721992 4721992 SINGLE
HXD:WEL:UPI_PIN 32 32 4721992 4721992 SINGLE
HXD:WEL:PIN_ID 4 4 4721992 4721992 SINGLE
HXD:WEL:UNITID 4 4 4721992 9442698 SINGLE
HXD:WEL:LENGTH_CHK 4 4 4721992 4721992 SINGLE
HXD:WEL:WELTIME 4 4 4721992 9442698 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 4721992 4721992 SINGLE
HXD:WEL:TRIG 4 4 4721992 4721992 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 4721992 4721992 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 4721992 4721992 SINGLE
HXD:WEL:PHA_FAST 4 4 4721992 4721992 SINGLE
HXD:WEL:PHA_SLOW 4 4 4721992 4721992 SINGLE
HXD:WEL:PHA_PIN 16 16 4721992 4721992 SINGLE
HXD:WEL:PACKET_AETIME 8 8 4721992 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 4721992 14163404 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 4721992 9442698 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 4730750 14165976 SINGLE
HXD:WEL:EVENT 204 204 9442698 4720706 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 3736 3736 SINGLE
HXDfwelTime:HXD_AE_TM_LATCH_TM 4 4 3736 3736 SINGLE
HXDfwelTime:HXD_WPU_CLK_RATE 4 4 3736 4720707 SINGLE
HXDfwelTime:HXD_SYS_TIME 8 8 3736 0 SINGLE
HXDfwelTime:HXD_HK_TIME 8 8 3736 0 SINGLE
HXDfwelTime:PWH 64 0 0 0 SINGLE
HXDfwelTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfwelTime:TIME_INVALID 4 4 4721992 0 SINGLE
HXDfwelTime:EV_TIME_TLM 8 8 4721992 0 SINGLE
HXDfwelTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 124.258 6.530 130.788 42.47
[ 2] HXDleapsecInit 1.655 3.046 4.700 1.53
[ 3] HXDgethkInit 1.276 2.812 4.087 1.33
[ 4] HXDfwelTimeFITS 2.570 2.593 5.162 1.68
[ 5] HXDfwelTime 21.661 2.873 24.533 7.97
[ 6] HXD2ndeventFitsWrite 122.290 16.345 138.635 45.02
(others) 0.022 0.013 0.035 0.01
--------------------------------------------------------------------------
TOTAL 273.731 34.210 307.941 100.00
-> hxdtime successful for ae503032010hxd_0_wel.sff.input_name,f,a,"ae503032010hxd_0_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae503032010hxd_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,"ae503032010",,,"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 = ae503032010hxd_0_wel.sff, HK = ae503032010hxd_0.hk
rm -rf ae503032010_hxdmkgainhist_tmp; mkdir ae503032010_hxdmkgainhist_tmp
maketime infile="ae503032010hxd_0.hk+1" outfile="ae503032010_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 = ae503032010_hxdmkgainhist_tmp/total.gti
fdump infile="ae503032010_hxdmkgainhist_tmp/total.gti" outfile="ae503032010_hxdmkgainhist_tmp/fdump.log" columns='START,STOP' rows=- prhead=no pagewidth=100 showrow=no
fdump log = ae503032010_hxdmkgainhist_tmp/fdump.log
GTI LIST = ae503032010_hxdmkgainhist_tmp/gtilist
Exposure = 1000000
Making Non-selection fits file now.
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_0.fff" expr="(UNITID=="0")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_1.fff" expr="(UNITID=="1")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_2.fff" expr="(UNITID=="2")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_3.fff" expr="(UNITID=="3")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_4.fff" expr="(UNITID=="4")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_5.fff" expr="(UNITID=="5")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_6.fff" expr="(UNITID=="6")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_7.fff" expr="(UNITID=="7")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_8.fff" expr="(UNITID=="8")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_9.fff" expr="(UNITID=="9")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_10.fff" expr="(UNITID=="10")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_11.fff" expr="(UNITID=="11")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_12.fff" expr="(UNITID=="12")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_13.fff" expr="(UNITID=="13")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_14.fff" expr="(UNITID=="14")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_15.fff" expr="(UNITID=="15")&&(TRIG==b0100000)&&(QUALITY_FLAGS==bxxxxxx1)"
Making Hit Pattern 8 fits file now.
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_0_hitpat8.fff" expr="(UNITID==0) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0111000000000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b11100000000000000011) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_1_hitpat8.fff" expr="(UNITID==1) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1011100100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b01110000000000000000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_2_hitpat8.fff" expr="(UNITID==2) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1101100110001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_3_hitpat8.fff" expr="(UNITID==3) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b1110000000001100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000111) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_4_hitpat8.fff" expr="(UNITID==4) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110011100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00111000000000000000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_5_hitpat8.fff" expr="(UNITID==5) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000101100000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00011111000000000000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_6_hitpat8.fff" expr="(UNITID==6) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000110111000000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000011100000000000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_7_hitpat8.fff" expr="(UNITID==7) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0110111011000100) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_8_hitpat8.fff" expr="(UNITID==8) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0010001101110110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_9_hitpat8.fff" expr="(UNITID==9) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000001110110000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000001110000000000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_10_hitpat8.fff" expr="(UNITID==10) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011010000) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000111110000000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_11_hitpat8.fff" expr="(UNITID==11) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000011100110) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000111000000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_12_hitpat8.fff" expr="(UNITID==12) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000000000111) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000001110) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_13_hitpat8.fff" expr="(UNITID==13) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0011000110011011) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000000000000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_14_hitpat8.fff" expr="(UNITID==14) && (TRIG==b0100000) && (QUALITY_FLAGS==bxxxxxx1) && (((HIT_PATTERN_WELL & b0000000010011101) == (b0000000000000000)) && ((HIT_PATTERN_ANTI & b00000000000011100000) == (b00000000000000000000)))"
fselect infile="ae503032010hxd_0_wel.sff" outfile="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010dmy.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="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_0.fff
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Total Good Bad: Region Time Phase Grade Cut
246974 246912 0 62 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
246974 246912 0 62 0 0 0
in 29888. seconds
Spectrum has 246912 counts for 8.261 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_0.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_0.fff
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Total Good Bad: Region Time Phase Grade Cut
246974 246912 0 62 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
246974 246912 0 62 0 0 0
in 29888. seconds
Spectrum has 246912 counts for 8.261 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_0_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
105689 105661 0 28 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
105689 105661 0 28 0 0 0
in 29888. seconds
Spectrum has 105661 counts for 3.535 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_0_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_0_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
105689 105661 0 28 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
105689 105661 0 28 0 0 0
in 29888. seconds
Spectrum has 105661 counts for 3.535 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_1.fff
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Total Good Bad: Region Time Phase Grade Cut
258033 257949 0 84 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
258033 257949 0 84 0 0 0
in 29888. seconds
Spectrum has 257949 counts for 8.631 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_1.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_1.fff
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Total Good Bad: Region Time Phase Grade Cut
258033 257949 0 84 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
258033 257949 0 84 0 0 0
in 29888. seconds
Spectrum has 257949 counts for 8.631 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
116096 116067 0 29 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
116096 116067 0 29 0 0 0
in 29888. seconds
Spectrum has 116067 counts for 3.883 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_1_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_1_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
116096 116067 0 29 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
116096 116067 0 29 0 0 0
in 29888. seconds
Spectrum has 116067 counts for 3.883 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
231843 231780 0 63 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
231843 231780 0 63 0 0 0
in 29888. seconds
Spectrum has 231780 counts for 7.755 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_2.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_2.fff
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Total Good Bad: Region Time Phase Grade Cut
231843 231780 0 63 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
231843 231780 0 63 0 0 0
in 29888. seconds
Spectrum has 231780 counts for 7.755 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
103061 103035 0 26 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
103061 103035 0 26 0 0 0
in 29888. seconds
Spectrum has 103035 counts for 3.447 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_2_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_2_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
103061 103035 0 26 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
103061 103035 0 26 0 0 0
in 29888. seconds
Spectrum has 103035 counts for 3.447 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
241817 241744 0 73 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
241817 241744 0 73 0 0 0
in 29888. seconds
Spectrum has 241744 counts for 8.088 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_3.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_3.fff
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Total Good Bad: Region Time Phase Grade Cut
241817 241744 0 73 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
241817 241744 0 73 0 0 0
in 29888. seconds
Spectrum has 241744 counts for 8.088 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
103651 103617 0 34 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
103651 103617 0 34 0 0 0
in 29888. seconds
Spectrum has 103617 counts for 3.467 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_3_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_3_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
103651 103617 0 34 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
103651 103617 0 34 0 0 0
in 29888. seconds
Spectrum has 103617 counts for 3.467 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
247331 247265 0 66 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
247331 247265 0 66 0 0 0
in 29888. seconds
Spectrum has 247265 counts for 8.273 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_4.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_4.fff
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Total Good Bad: Region Time Phase Grade Cut
247331 247265 0 66 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
247331 247265 0 66 0 0 0
in 29888. seconds
Spectrum has 247265 counts for 8.273 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
102553 102522 0 31 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
102553 102522 0 31 0 0 0
in 29888. seconds
Spectrum has 102522 counts for 3.430 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_4_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_4_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
102553 102522 0 31 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
102553 102522 0 31 0 0 0
in 29888. seconds
Spectrum has 102522 counts for 3.430 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
246141 246087 0 54 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
246141 246087 0 54 0 0 0
in 29888. seconds
Spectrum has 246087 counts for 8.234 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_5.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_5.fff
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Total Good Bad: Region Time Phase Grade Cut
246141 246087 0 54 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
246141 246087 0 54 0 0 0
in 29888. seconds
Spectrum has 246087 counts for 8.234 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
105364 105343 0 21 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
105364 105343 0 21 0 0 0
in 29888. seconds
Spectrum has 105343 counts for 3.525 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_5_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_5_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
105364 105343 0 21 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
105364 105343 0 21 0 0 0
in 29888. seconds
Spectrum has 105343 counts for 3.525 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
236829 236758 0 71 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
236829 236758 0 71 0 0 0
in 29888. seconds
Spectrum has 236758 counts for 7.922 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_6.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_6.fff
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Total Good Bad: Region Time Phase Grade Cut
236829 236758 0 71 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
236829 236758 0 71 0 0 0
in 29888. seconds
Spectrum has 236758 counts for 7.922 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
100628 100598 0 30 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
100628 100598 0 30 0 0 0
in 29888. seconds
Spectrum has 100598 counts for 3.366 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_6_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_6_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
100628 100598 0 30 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
100628 100598 0 30 0 0 0
in 29888. seconds
Spectrum has 100598 counts for 3.366 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
280202 280139 0 63 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
280202 280139 0 63 0 0 0
in 29888. seconds
Spectrum has 280139 counts for 9.373 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_7.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_7.fff
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Total Good Bad: Region Time Phase Grade Cut
280202 280139 0 63 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
280202 280139 0 63 0 0 0
in 29888. seconds
Spectrum has 280139 counts for 9.373 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
114174 114148 0 26 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
114174 114148 0 26 0 0 0
in 29888. seconds
Spectrum has 114148 counts for 3.819 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_7_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_7_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
114174 114148 0 26 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
114174 114148 0 26 0 0 0
in 29888. seconds
Spectrum has 114148 counts for 3.819 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
246367 246296 0 71 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
246367 246296 0 71 0 0 0
in 29888. seconds
Spectrum has 246296 counts for 8.241 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_8.fff
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Total Good Bad: Region Time Phase Grade Cut
246367 246296 0 71 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
246367 246296 0 71 0 0 0
in 29888. seconds
Spectrum has 246296 counts for 8.241 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
103477 103450 0 27 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
103477 103450 0 27 0 0 0
in 29888. seconds
Spectrum has 103450 counts for 3.461 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_8_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_8_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
103477 103450 0 27 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
103477 103450 0 27 0 0 0
in 29888. seconds
Spectrum has 103450 counts for 3.461 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
222322 222271 0 51 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
222322 222271 0 51 0 0 0
in 29888. seconds
Spectrum has 222271 counts for 7.437 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_9.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_9.fff
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Total Good Bad: Region Time Phase Grade Cut
222322 222271 0 51 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
222322 222271 0 51 0 0 0
in 29888. seconds
Spectrum has 222271 counts for 7.437 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
96945 96918 0 27 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
96945 96918 0 27 0 0 0
in 29888. seconds
Spectrum has 96918 counts for 3.243 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_9_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_9_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
96945 96918 0 27 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
96945 96918 0 27 0 0 0
in 29888. seconds
Spectrum has 96918 counts for 3.243 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
229110 229030 0 80 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
229110 229030 0 80 0 0 0
in 29888. seconds
Spectrum has 229030 counts for 7.663 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_10.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_10.fff
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Total Good Bad: Region Time Phase Grade Cut
229110 229030 0 80 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
229110 229030 0 80 0 0 0
in 29888. seconds
Spectrum has 229030 counts for 7.663 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
97703 97664 0 39 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
97703 97664 0 39 0 0 0
in 29888. seconds
Spectrum has 97664 counts for 3.268 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_10_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_10_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
97703 97664 0 39 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
97703 97664 0 39 0 0 0
in 29888. seconds
Spectrum has 97664 counts for 3.268 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
269360 269291 0 69 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
269360 269291 0 69 0 0 0
in 29888. seconds
Spectrum has 269291 counts for 9.010 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_11.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_11.fff
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Total Good Bad: Region Time Phase Grade Cut
269360 269291 0 69 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
269360 269291 0 69 0 0 0
in 29888. seconds
Spectrum has 269291 counts for 9.010 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
110381 110353 0 28 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
110381 110353 0 28 0 0 0
in 29888. seconds
Spectrum has 110353 counts for 3.692 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_11_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_11_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
110381 110353 0 28 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
110381 110353 0 28 0 0 0
in 29888. seconds
Spectrum has 110353 counts for 3.692 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
237176 237113 0 63 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
237176 237113 0 63 0 0 0
in 29888. seconds
Spectrum has 237113 counts for 7.933 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_12.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_12.fff
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Total Good Bad: Region Time Phase Grade Cut
237176 237113 0 63 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
237176 237113 0 63 0 0 0
in 29888. seconds
Spectrum has 237113 counts for 7.933 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
101949 101921 0 28 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
101949 101921 0 28 0 0 0
in 29888. seconds
Spectrum has 101921 counts for 3.410 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_12_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_12_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
101949 101921 0 28 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
101949 101921 0 28 0 0 0
in 29888. seconds
Spectrum has 101921 counts for 3.410 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
227720 227657 0 63 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
227720 227657 0 63 0 0 0
in 29888. seconds
Spectrum has 227657 counts for 7.617 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_13.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_13.fff
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Total Good Bad: Region Time Phase Grade Cut
227720 227657 0 63 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
227720 227657 0 63 0 0 0
in 29888. seconds
Spectrum has 227657 counts for 7.617 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
101060 101031 0 29 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
101060 101031 0 29 0 0 0
in 29888. seconds
Spectrum has 101031 counts for 3.380 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_13_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_13_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
101060 101031 0 29 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
101060 101031 0 29 0 0 0
in 29888. seconds
Spectrum has 101031 counts for 3.380 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
240795 240729 0 66 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
240795 240729 0 66 0 0 0
in 29888. seconds
Spectrum has 240729 counts for 8.054 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_14.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_14.fff
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Total Good Bad: Region Time Phase Grade Cut
240795 240729 0 66 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
240795 240729 0 66 0 0 0
in 29888. seconds
Spectrum has 240729 counts for 8.054 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
100093 100063 0 30 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
100093 100063 0 30 0 0 0
in 29888. seconds
Spectrum has 100063 counts for 3.348 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_14_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_14_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
100093 100063 0 30 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
100093 100063 0 30 0 0 0
in 29888. seconds
Spectrum has 100063 counts for 3.348 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_gti_0_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
224234 224170 0 64 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
224234 224170 0 64 0 0 0
in 29888. seconds
Spectrum has 224170 counts for 7.500 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_15.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_gti_0_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_15.fff
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Total Good Bad: Region Time Phase Grade Cut
224234 224170 0 64 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
224234 224170 0 64 0 0 0
in 29888. seconds
Spectrum has 224170 counts for 7.500 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_gti_0_hitpat8_slow.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_15_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
97458 97434 0 24 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
97458 97434 0 24 0 0 0
in 29888. seconds
Spectrum has 97434 counts for 3.260 counts/sec
... written the PHA data Extension
extractor filename="ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_15_hitpat8.fff" eventsout="NONE" imgfile="NONE" fitsbinlc="NONE" regionfile="NONE" phafile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_gti_0_hitpat8_fast.pha" timefile="ae503032010_hxdmkgainhist_tmp/ae503032010_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: ae503032010_hxdmkgainhist_tmp/tmp_ae503032010_15_hitpat8.fff
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Total Good Bad: Region Time Phase Grade Cut
97458 97434 0 24 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
97458 97434 0 24 0 0 0
in 29888. seconds
Spectrum has 97434 counts for 3.260 counts/sec
... written the PHA data Extension
rbnpha infile="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_gti_0_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_gti_0_hitpat8_slow.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_gti_0_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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="ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_gti_0_hitpat8_fast.pha" outfile="ae503032010_hxdmkgainhist_tmp/ae503032010_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 17:09:48 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.535 +/- 1.0876E-02
Net count rate (cts/s) for file 2 3.535 +/- 1.0876E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 144082.0 using 168 PHA bins.
Reduced chi-squared = 900.5126 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11822.80 using 168 PHA bins.
Reduced chi-squared = 73.89249 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
7479.65 -3 81.08 16.38 0.2020 1.097
0.9780 81.68 15.93 1.086
2920.40 -4 68.39 6.026 0.1159 0.8998
0.7954 71.02 7.119 0.9098
1331.88 -5 72.96 9.686 0.1772 1.069
1.217 75.68 16.22 1.066
1053.58 -3 75.71 8.229 0.1956 1.142
1.700 77.28 5.976 1.141
354.975 -4 75.06 8.941 0.1997 1.165
1.972 77.21 8.601 1.163
349.359 -5 74.96 9.322 0.2212 1.170
2.020 76.80 12.10 1.172
305.038 -6 75.02 9.089 0.2165 1.166
1.994 76.69 9.933 1.168
304.686 0 75.01 9.122 0.2172 1.166
1.993 76.70 10.36 1.168
303.419 -1 74.97 9.228 0.2205 1.167
1.991 76.67 10.25 1.168
303.376 -2 74.97 9.244 0.2216 1.167
1.993 76.67 10.28 1.169
303.365 -3 74.98 9.242 0.2216 1.168
2.002 76.67 10.28 1.170
303.363 -4 74.98 9.244 0.2216 1.169
2.005 76.67 10.28 1.170
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.77E-06 | 0.00 0.00 -0.25 0.72 -0.16 0.00 0.00 0.63
1.94E-06 | 0.00 0.00 -0.02 -0.66 -0.01 0.00 0.00 0.75
1.85E-05 | 0.00 0.01 -0.97 -0.17 0.05 0.00 0.05 -0.18
2.32E-03 | 0.01 -0.06 0.05 0.00 -0.04 0.02 1.00 0.01
1.08E-02 | -0.10 -0.05 0.01 0.12 0.97 -0.09 0.04 0.12
6.58E-02 | 0.69 0.71 0.01 0.01 0.10 -0.01 0.04 0.01
7.97E-02 | -0.64 0.63 0.01 0.00 0.01 0.45 0.03 0.00
1.05E-01 | 0.32 -0.31 -0.01 0.01 0.10 0.89 -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 74.9828 +/- 0.273671 1
2 2 1 gaussian Sigma keV 9.24353 +/- 0.273126 1
3 3 1 gaussian norm 0.221645 +/- 0.598701E-02 1
4 4 2 powerlaw PhoIndex 1.16854 +/- 0.137103E-01 1
5 5 2 powerlaw norm 2.00522 +/- 0.109684 1
6 6 3 gaussian LineE keV 76.6744 +/- 0.314421 2
7 7 3 gaussian Sigma keV 10.2805 +/- 0.517892E-01 2
8 3 3 gaussian norm 0.221645 = par 3 2
9 8 4 powerlaw PhoIndex 1.17018 +/- 0.131723E-01 2
10 5 4 powerlaw norm 2.00522 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 303.3634 using 168 PHA bins.
Reduced chi-squared = 1.896021 for 160 degrees of freedom
Null hypothesis probability = 6.039E-11
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 74.5493 75.4156 ( -0.433540 , 0.432755 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.1804 77.1656 ( -0.494011 , 0.491226 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.327 photons ( 1.5555E-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 ( 1.5524E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:09:48 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.261 +/- 1.6626E-02
Net count rate (cts/s) for file 2 8.261 +/- 1.6626E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.726 +/- 1.9867E-02( 57.2% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.726 +/- 1.9867E-02( 57.2% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 1880114. using 198 PHA bins.
Reduced chi-squared = 9895.337 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 42877.64 using 198 PHA bins.
Reduced chi-squared = 225.6718 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
21946.3 -3 124.5 19.12 0.4665 2.903
0.3505 120.2 19.13 2.838
10559.9 -3 108.8 19.29 1.470 8.932
0.1663 109.3 19.31 1.962
9627.81 0 110.9 19.33 1.477 9.495
8.0410E-02 111.4 19.35 2.753
9046.57 0 112.5 19.35 1.469 9.498
2.5596E-02 112.9 19.36 6.918
8641.63 0 113.8 19.36 1.452 9.499
1.0821E-02 114.1 19.37 8.671
8352.90 0 114.8 19.37 1.434 9.500
1.7147E-03 115.0 19.37 9.482
8145.60 0 115.6 19.37 1.417 9.500
7.1442E-04 115.7 19.37 9.491
7997.70 0 116.3 19.37 1.402 9.500
1.2245E-04 116.2 19.37 9.497
7892.74 0 116.9 19.37 1.388 9.500
4.0360E-05 116.6 19.37 9.500
7817.69 0 117.3 19.37 1.377 9.500
1.9036E-05 116.9 19.37 9.500
7764.14 0 117.7 19.37 1.367 9.500
8.1427E-06 117.2 19.37 9.500
7726.34 0 118.0 19.37 1.359 9.500
2.6187E-06 117.4 19.37 9.500
7680.69 0 118.4 19.37 1.347 9.500
4.3164E-07 117.7 19.37 9.500
7645.12 0 118.6 19.37 1.336 9.500
5.9149E-10 117.7 19.37 9.500
7631.18 0 118.7 19.37 1.333 9.500
1.0244E-10 117.7 19.37 9.500
7622.80 0 118.8 19.37 1.331 9.500
4.1096E-11 117.7 19.37 9.500
7616.88 0 118.9 19.37 1.329 9.500
1.0542E-11 117.7 19.37 9.500
7613.96 0 118.9 19.37 1.328 9.500
2.8573E-12 117.7 19.37 9.500
7611.52 0 118.9 19.37 1.328 9.500
9.3568E-13 117.7 19.37 9.500
Fit parameter 5 has pegged
7592.59 0 118.9 19.37 1.320 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7590.37 0 118.9 19.37 1.318 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7590.34 0 118.9 19.37 1.317 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
7584.97 0 118.9 19.37 1.315 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
7580.06 0 119.0 19.37 1.313 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
7575.65 0 119.1 19.37 1.311 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
7571.60 0 119.1 19.37 1.310 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
7567.90 0 119.2 19.37 1.308 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
7564.52 0 119.2 19.37 1.306 9.500
0.000 117.2 19.37 9.500
Fit parameter 5 has pegged
7561.44 0 119.3 19.37 1.305 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7558.62 0 119.3 19.37 1.304 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7556.02 0 119.4 19.37 1.303 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7553.70 0 119.4 19.37 1.301 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7551.51 0 119.4 19.37 1.300 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7549.55 0 119.5 19.37 1.299 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7547.70 0 119.5 19.37 1.298 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7546.06 0 119.6 19.37 1.297 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7544.52 0 119.6 19.37 1.296 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7543.12 0 119.6 19.37 1.296 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7541.81 0 119.7 19.37 1.295 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7540.66 0 119.7 19.37 1.294 9.500
0.000 117.3 19.37 9.500
Fit parameter 5 has pegged
7539.55 0 119.7 19.37 1.293 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7538.55 0 119.7 19.37 1.293 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7537.63 0 119.8 19.37 1.292 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7536.78 0 119.8 19.37 1.292 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7535.98 0 119.8 19.37 1.291 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7535.27 0 119.8 19.37 1.290 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7534.57 0 119.9 19.37 1.290 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7533.97 0 119.9 19.37 1.289 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7533.44 0 119.9 19.37 1.289 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7532.89 0 119.9 19.37 1.288 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7532.42 0 119.9 19.37 1.288 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7531.96 0 120.0 19.37 1.288 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7531.54 0 120.0 19.37 1.287 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7531.16 0 120.0 19.37 1.287 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7530.82 0 120.0 19.37 1.287 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7530.46 0 120.0 19.37 1.286 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7530.16 0 120.0 19.37 1.286 9.500
0.000 117.4 19.37 9.500
Fit parameter 5 has pegged
7529.89 0 120.0 19.37 1.286 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7529.60 0 120.0 19.37 1.285 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7529.36 0 120.1 19.37 1.285 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7529.14 0 120.1 19.37 1.285 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7528.93 0 120.1 19.37 1.285 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7528.72 0 120.1 19.37 1.284 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7528.54 0 120.1 19.37 1.284 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7528.38 0 120.1 19.37 1.284 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7528.22 0 120.1 19.37 1.284 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7528.07 0 120.1 19.37 1.284 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7527.93 0 120.1 19.37 1.283 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7527.77 0 120.1 19.37 1.283 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7527.69 0 120.1 19.37 1.283 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7527.55 0 120.1 19.37 1.283 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7527.44 0 120.2 19.37 1.283 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7527.34 0 120.2 19.37 1.283 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7527.25 0 120.2 19.37 1.282 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7527.17 0 120.2 19.37 1.282 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7527.08 0 120.2 19.37 1.282 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7527.03 0 120.2 19.37 1.282 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.94 0 120.2 19.37 1.282 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.88 0 120.2 19.37 1.282 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.81 0 120.2 19.37 1.282 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.74 0 120.2 19.37 1.282 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.69 0 120.2 19.37 1.282 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.63 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.59 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.53 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.49 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.45 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.41 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.38 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.34 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.31 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.27 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.26 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
7526.17 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.16 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.14 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.09 0 120.2 19.37 1.281 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.08 0 120.2 19.37 1.280 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.05 0 120.2 19.37 1.280 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.03 0 120.2 19.37 1.280 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7526.02 0 120.2 19.37 1.280 9.500
0.000 117.5 19.37 9.500
7525.96 0 120.3 19.37 1.280 9.500
0.000 117.5 19.37 9.500
Fit parameter 5 has pegged
7525.95 0 120.3 19.37 1.280 9.500
0.000 117.5 19.37 9.500
7525.90 0 120.3 19.37 1.280 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
7525.90 1 120.3 19.37 1.280 9.500
0.000 117.6 19.37 9.500
7525.87 0 120.3 19.37 1.280 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
7525.84 0 120.3 19.37 1.280 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
7525.83 1 120.3 19.37 1.280 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
7525.83 5 120.3 19.37 1.280 9.500
0.000 117.6 19.37 9.500
7525.80 0 120.3 19.37 1.280 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
7525.79 0 120.3 19.37 1.280 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
7525.76 1 120.3 19.37 1.280 9.500
0.000 117.6 19.37 9.500
Fit parameter 5 has pegged
7525.76 3 120.3 19.37 1.280 9.500
0.000 117.6 19.37 9.500
7525.76 4 120.3 19.37 1.280 9.500
0.000 117.6 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.33E-05 | -0.01 0.00 -1.00 -0.01 0.00
3.27E-02 | 0.41 0.01 0.01 -0.91 -0.07
3.86E-02 | -0.91 -0.05 0.01 -0.41 -0.04
6.18E+00 | -0.05 0.83 0.00 -0.05 0.56
3.79E+00 | 0.02 -0.56 0.00 -0.06 0.83
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 120.268 +/- 0.236546 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.32733 1
3 3 1 gaussian norm 1.28000 +/- 0.879266E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 117.558 +/- 0.250061 2
7 7 3 gaussian Sigma keV 19.3655 +/- 2.12187 2
8 3 3 gaussian norm 1.28000 = 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 = 7525.757 using 198 PHA bins.
Reduced chi-squared = 39.60925 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 ( 38.202) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 38.202) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.091 photons ( 2.1937E-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 ( 2.0762E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:09:49 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.535 +/- 1.0876E-02
Net count rate (cts/s) for file 2 3.535 +/- 1.0876E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 177108.4 using 168 PHA bins.
Reduced chi-squared = 1106.928 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16921.97 using 168 PHA bins.
Reduced chi-squared = 105.7623 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2665.22 -2 84.63 13.28 0.1160 0.9106
0.6956 84.93 12.23 0.9037
2507.43 -3 59.79 15.44 0.2031 1.039
1.047 65.89 13.91 1.035
1228.63 -2 76.99 18.73 0.3164 1.060
1.164 76.70 17.21 1.063
1107.52 0 76.35 17.97 0.3158 1.061
1.164 76.32 16.87 1.063
731.427 0 73.64 9.266 0.3101 1.061
1.165 74.71 14.33 1.063
407.870 -1 74.04 9.690 0.2442 1.057
1.219 75.03 11.05 1.059
356.529 -2 74.55 9.116 0.2165 1.080
1.367 76.02 10.31 1.081
334.737 -2 74.64 9.204 0.2185 1.099
1.484 76.23 10.26 1.100
322.452 -2 74.72 9.185 0.2186 1.113
1.583 76.34 10.24 1.114
321.903 -3 74.91 9.220 0.2206 1.155
1.856 76.59 10.27 1.155
304.510 -4 74.98 9.242 0.2216 1.169
1.996 76.67 10.28 1.170
303.365 -5 74.98 9.243 0.2216 1.169
2.005 76.67 10.28 1.170
303.363 -6 74.98 9.243 0.2216 1.169
2.005 76.67 10.28 1.170
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.77E-06 | 0.00 0.00 -0.25 0.72 -0.16 0.00 0.00 0.63
1.94E-06 | 0.00 0.00 -0.02 -0.66 -0.01 0.00 0.00 0.75
1.85E-05 | 0.00 0.01 -0.97 -0.17 0.05 0.00 0.05 -0.18
2.31E-03 | 0.01 -0.06 0.05 0.00 -0.04 0.02 1.00 0.01
1.09E-02 | -0.10 -0.05 0.01 0.12 0.97 -0.09 0.04 0.12
6.58E-02 | 0.69 0.71 0.01 0.01 0.10 -0.02 0.04 0.01
7.97E-02 | -0.64 0.63 0.01 0.00 0.01 0.45 0.03 0.00
1.05E-01 | 0.32 -0.31 -0.01 0.01 0.10 0.89 -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 74.9830 +/- 0.273680 1
2 2 1 gaussian Sigma keV 9.24338 +/- 0.273144 1
3 3 1 gaussian norm 0.221644 +/- 0.598790E-02 1
4 4 2 powerlaw PhoIndex 1.16855 +/- 0.137122E-01 1
5 5 2 powerlaw norm 2.00539 +/- 0.109884 1
6 6 3 gaussian LineE keV 76.6745 +/- 0.314409 2
7 7 3 gaussian Sigma keV 10.2803 +/- 0.516911E-01 2
8 3 3 gaussian norm 0.221644 = par 3 2
9 8 4 powerlaw PhoIndex 1.17020 +/- 0.131740E-01 2
10 5 4 powerlaw norm 2.00539 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 303.3634 using 168 PHA bins.
Reduced chi-squared = 1.896021 for 160 degrees of freedom
Null hypothesis probability = 6.039E-11
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 74.5494 75.4157 ( -0.433632 , 0.432640 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 76.1805 77.1657 ( -0.493988 , 0.491280 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.327 photons ( 1.5556E-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 ( 1.5524E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w00_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
73.89249
=====best line=====
74.9828 0.273671
=====best sigma=====
9.24353 0.273126
=====norm=====
0.221645 0.598701E-02
=====phoindx=====
1.16854 0.137103E-01
=====pow_norm=====
2.00522 0.109684
=====best line=====
76.6744 0.314421
=====best sigma=====
10.2805 0.517892E-01
=====norm=====
0.221645 par
=====phoindx=====
1.17018 0.131723E-01
=====pow_norm=====
2.00522 par
=====redu_chi=====
1.896021
=====slow error=====
-0.433540 0.432755
=====fast error=====
-0.494011 0.491226
=====area_flux=====
1.327
=====area_flux_f=====
1.320
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.93036 7.881896
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 0 1 640 2000 1199.7248 6.93036 0.221645 0.598701E-02 9.24353 0.273126 1.16854 0.137103E-01 2.00522 0.109684 1.327 640 2000 1226.7904 7.881896 0.221645 0.598701E-02 10.2805 0.517892E-01 1.17018 0.131723E-01 2.00522 0.109684 1.320 1.896021 0
=====redu_chi=====
225.6718
=====best line=====
120.268 0.236546
=====best sigma=====
19.3655 2.32733
=====norm=====
1.28000 0.879266E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
117.558 0.250061
=====best sigma=====
19.3655 2.12187
=====norm=====
1.28000 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
39.60925
=====area_flux=====
1.091
=====area_flux_f=====
1.047
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.93036 7.881896
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 0 1 1600 3200 1924.288 6.93036 1.28000 0.879266E-02 309.848 37.23728 9.50000 -1.00000 0.00000 -1.00000 1.091 1600 3200 1880.928 7.881896 1.28000 0.879266E-02 309.848 33.94992 9.50000 -1.00000 0.00000 -1.00000 1.047 39.60925 1
=====redu_chi=====
105.7623
=====best line=====
74.9830 0.273680
=====best sigma=====
9.24338 0.273144
=====norm=====
0.221644 0.598790E-02
=====phoindx=====
1.16855 0.137122E-01
=====pow_norm=====
2.00539 0.109884
=====best line=====
76.6745 0.314409
=====best sigma=====
10.2803 0.516911E-01
=====norm=====
0.221644 par
=====phoindx=====
1.17020 0.131740E-01
=====pow_norm=====
2.00539 par
=====redu_chi=====
1.896021
=====slow error=====
-0.433632 0.432640
=====fast error=====
-0.493988 0.491280
=====area_flux=====
1.327
=====area_flux_f=====
1.320
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.930176 7.882144
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 0 1 640 2000 1199.728 6.930176 0.221644 0.598790E-02 9.24338 0.273144 1.16855 0.137122E-01 2.00539 0.109884 1.327 640 2000 1226.792 7.882144 0.221644 0.598790E-02 10.2803 0.516911E-01 1.17020 0.131740E-01 2.00539 0.109884 1.320 1.896021 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:09:50 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.883 +/- 1.1399E-02
Net count rate (cts/s) for file 2 3.883 +/- 1.1399E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 122753.0 using 168 PHA bins.
Reduced chi-squared = 767.2061 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 9246.379 using 168 PHA bins.
Reduced chi-squared = 57.78987 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1686.97 -3 82.26 15.70 0.1982 0.9485
0.7491 83.00 14.87 0.9448
1346.38 -4 72.11 6.657 9.0662E-02 0.8627
0.6268 75.70 7.708 0.8667
953.850 -1 76.51 9.945 0.1683 0.8741
0.6167 79.52 15.15 0.8770
661.071 -2 76.43 7.637 0.1774 0.9060
0.6903 76.04 7.733 0.9069
526.969 -2 76.35 9.340 0.2052 0.9357
0.7678 78.06 13.02 0.9368
395.785 -2 76.63 8.750 0.1959 0.9586
0.8534 78.78 9.632 0.9597
375.242 -2 76.60 9.272 0.2098 0.9791
0.9248 78.99 10.71 0.9808
354.321 -2 76.74 9.086 0.2073 0.9942
0.9898 79.03 9.966 0.9960
345.477 -2 76.77 9.214 0.2107 1.007
1.043 79.13 10.01 1.009
342.730 -3 76.94 9.249 0.2132 1.042
1.195 79.32 10.11 1.043
332.195 -4 77.00 9.285 0.2145 1.054
1.271 79.38 10.08 1.056
331.448 -5 77.00 9.286 0.2146 1.054
1.276 79.39 10.10 1.057
331.448 0 77.00 9.286 0.2146 1.054
1.276 79.39 10.10 1.057
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.64E-06 | 0.00 0.00 -0.24 0.71 -0.25 0.00 0.00 0.62
1.86E-06 | 0.00 0.00 -0.02 -0.66 -0.01 0.00 0.00 0.75
1.80E-05 | 0.00 0.01 -0.97 -0.16 0.07 0.00 0.04 -0.17
3.97E-03 | 0.04 -0.05 0.02 -0.11 -0.57 0.05 0.80 -0.10
4.96E-03 | -0.04 -0.08 0.03 0.15 0.77 -0.03 0.59 0.15
7.29E-02 | 0.76 0.64 0.01 0.01 0.06 -0.05 0.06 0.01
1.02E-01 | 0.34 -0.33 -0.01 0.01 0.05 0.88 -0.05 0.01
8.46E-02 | 0.55 -0.68 -0.01 -0.01 -0.02 -0.47 -0.05 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0049 +/- 0.282228 1
2 2 1 gaussian Sigma keV 9.28577 +/- 0.284479 1
3 3 1 gaussian norm 0.214609 +/- 0.599633E-02 1
4 4 2 powerlaw PhoIndex 1.05409 +/- 0.136908E-01 1
5 5 2 powerlaw norm 1.27636 +/- 0.695194E-01 1
6 6 3 gaussian LineE keV 79.3863 +/- 0.313144 2
7 7 3 gaussian Sigma keV 10.1006 +/- 0.703943E-01 2
8 3 3 gaussian norm 0.214609 = par 3 2
9 8 4 powerlaw PhoIndex 1.05663 +/- 0.131600E-01 2
10 5 4 powerlaw norm 1.27636 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 331.4479 using 168 PHA bins.
Reduced chi-squared = 2.071549 for 160 degrees of freedom
Null hypothesis probability = 4.827E-14
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 76.5550 77.4543 ( -0.449913 , 0.449432 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 78.8880 79.8809 ( -0.498306 , 0.494659 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.358 photons ( 1.6141E-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 ( 1.6075E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:09:50 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.631 +/- 1.6993E-02
Net count rate (cts/s) for file 2 8.631 +/- 1.6993E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.747 +/- 2.0462E-02( 55.0% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.747 +/- 2.0462E-02( 55.0% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 1619018. using 198 PHA bins.
Reduced chi-squared = 8521.148 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 42932.71 using 198 PHA bins.
Reduced chi-squared = 225.9616 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
21429.7 -3 123.0 18.99 0.5053 2.884
0.4009 118.5 18.98 2.819
10316.2 -2 111.8 19.22 1.622 8.684
0.1556 113.7 19.30 6.901
9270.92 0 113.2 19.31 1.559 9.372
4.4413E-02 114.9 19.37 9.044
8570.01 0 114.6 19.35 1.516 9.495
9.2458E-03 116.1 19.37 9.493
8087.84 0 115.8 19.36 1.484 9.499
3.9176E-03 117.0 19.37 9.497
7759.28 0 116.9 19.36 1.460 9.499
1.9080E-03 117.8 19.37 9.499
7535.06 0 117.7 19.37 1.440 9.500
6.5952E-04 118.4 19.37 9.500
7382.76 0 118.4 19.37 1.425 9.500
2.9351E-04 118.9 19.37 9.500
7276.23 0 119.0 19.37 1.412 9.500
9.7888E-05 119.2 19.37 9.500
7205.84 0 119.4 19.37 1.402 9.500
4.6770E-05 119.5 19.37 9.500
7157.39 0 119.7 19.37 1.394 9.500
2.0618E-05 119.7 19.37 9.500
7121.18 0 120.0 19.37 1.387 9.500
7.3294E-06 119.9 19.37 9.500
7051.28 0 120.5 19.37 1.370 9.500
3.2836E-08 120.0 19.37 9.500
7041.08 0 120.6 19.37 1.368 9.500
1.3959E-08 120.1 19.37 9.500
7034.45 0 120.7 19.37 1.366 9.500
4.5085E-09 120.1 19.37 9.500
7028.61 0 120.7 19.37 1.364 9.500
2.1380E-09 120.1 19.37 9.500
7024.85 0 120.8 19.37 1.363 9.500
9.5224E-10 120.1 19.37 9.500
7022.90 0 120.8 19.37 1.362 9.500
3.5921E-10 120.1 19.37 9.500
7020.98 0 120.8 19.37 1.362 9.500
6.2513E-11 120.1 19.37 9.500
7019.64 0 120.8 19.37 1.361 9.500
2.5361E-11 120.1 19.37 9.500
7019.04 0 120.9 19.37 1.361 9.500
6.7612E-12 120.1 19.37 9.500
7016.65 0 120.9 19.37 1.360 9.500
2.1163E-12 120.2 19.37 9.500
7016.32 0 120.9 19.37 1.360 9.500
9.5658E-13 120.2 19.37 9.500
Fit parameter 5 has pegged
6999.42 0 120.8 19.37 1.352 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6996.92 0 120.7 19.37 1.349 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6990.45 0 120.8 19.37 1.346 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6984.65 0 120.9 19.37 1.344 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6979.38 0 120.9 19.37 1.342 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6974.69 0 121.0 19.37 1.340 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6970.48 0 121.0 19.37 1.338 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6966.64 0 121.1 19.37 1.336 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6963.16 0 121.1 19.37 1.334 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6960.02 0 121.2 19.37 1.333 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6957.16 0 121.2 19.37 1.331 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6954.56 0 121.2 19.37 1.330 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6952.18 0 121.3 19.37 1.328 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6950.01 0 121.3 19.37 1.327 9.500
0.000 119.8 19.37 9.500
Fit parameter 5 has pegged
6948.04 0 121.4 19.37 1.326 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6946.25 0 121.4 19.37 1.325 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6944.61 0 121.4 19.37 1.324 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6943.11 0 121.5 19.37 1.323 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6941.71 0 121.5 19.37 1.322 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6940.47 0 121.5 19.37 1.322 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6939.31 0 121.5 19.37 1.321 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6938.23 0 121.6 19.37 1.320 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6937.28 0 121.6 19.37 1.319 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6936.39 0 121.6 19.37 1.319 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6935.58 0 121.6 19.37 1.318 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6934.83 0 121.7 19.37 1.318 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6934.13 0 121.7 19.37 1.317 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6933.48 0 121.7 19.37 1.317 9.500
0.000 119.9 19.37 9.500
Fit parameter 5 has pegged
6932.90 0 121.7 19.37 1.316 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6932.37 0 121.7 19.37 1.316 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6931.88 0 121.8 19.37 1.315 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6931.40 0 121.8 19.37 1.315 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6930.98 0 121.8 19.37 1.314 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6930.60 0 121.8 19.37 1.314 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6930.23 0 121.8 19.37 1.314 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6929.87 0 121.8 19.37 1.313 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6929.56 0 121.8 19.37 1.313 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6929.28 0 121.9 19.37 1.313 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6929.01 0 121.9 19.37 1.313 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6928.75 0 121.9 19.37 1.312 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6928.52 0 121.9 19.37 1.312 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6928.31 0 121.9 19.37 1.312 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6928.11 0 121.9 19.37 1.312 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6927.91 0 121.9 19.37 1.311 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6927.74 0 121.9 19.37 1.311 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6927.57 0 121.9 19.37 1.311 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6927.43 0 121.9 19.37 1.311 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6927.29 0 121.9 19.37 1.311 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6927.14 0 122.0 19.37 1.310 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6927.04 0 122.0 19.37 1.310 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.95 0 122.0 19.37 1.310 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.83 0 122.0 19.37 1.310 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.69 0 122.0 19.37 1.310 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.62 0 122.0 19.37 1.310 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.52 0 122.0 19.37 1.310 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.43 0 122.0 19.37 1.309 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.35 0 122.0 19.37 1.309 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.29 0 122.0 19.37 1.309 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.23 0 122.0 19.37 1.309 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.18 0 122.0 19.37 1.309 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.11 0 122.0 19.37 1.309 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.08 0 122.0 19.37 1.309 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6926.01 0 122.0 19.37 1.309 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
6925.96 0 122.0 19.37 1.309 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.90 0 122.0 19.37 1.309 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.86 0 122.0 19.37 1.309 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.82 0 122.0 19.37 1.309 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.78 0 122.0 19.37 1.309 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.73 0 122.0 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.72 0 122.0 19.37 1.308 9.500
0.000 120.1 19.37 9.500
6925.61 0 122.0 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.59 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.57 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.53 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.49 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.49 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
6925.41 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.39 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.38 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.36 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.35 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
6925.30 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.28 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.26 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.24 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.24 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
6925.19 2 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.17 1 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.17 1 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
6925.14 0 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.10 1 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
6925.10 3 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
6925.10 4 122.1 19.37 1.308 9.500
0.000 120.1 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.40E-05 | -0.01 0.00 -1.00 -0.01 0.00
3.16E-02 | 0.27 0.00 0.01 -0.96 -0.06
3.77E-02 | -0.96 -0.05 0.01 -0.27 -0.03
6.26E+00 | -0.04 0.89 0.00 -0.04 0.46
3.88E+00 | 0.01 -0.46 0.00 -0.06 0.88
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 122.089 +/- 0.223753 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.39595 1
3 3 1 gaussian norm 1.30777 +/- 0.847156E-02 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 120.095 +/- 0.233388 2
7 7 3 gaussian Sigma keV 19.3655 +/- 2.09014 2
8 3 3 gaussian norm 1.30777 = 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 = 6925.104 using 198 PHA bins.
Reduced chi-squared = 36.44791 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 ( 35.153) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 35.153) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.142 photons ( 2.3173E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.112 photons ( 2.2339E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:09:51 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.883 +/- 1.1399E-02
Net count rate (cts/s) for file 2 3.883 +/- 1.1399E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 149204.0 using 168 PHA bins.
Reduced chi-squared = 932.5250 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13886.86 using 168 PHA bins.
Reduced chi-squared = 86.79289 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
6241.03 -3 85.30 13.49 0.1707 1.062
0.9477 85.78 12.20 1.052
1167.72 -4 71.07 13.21 0.2006 0.9584
0.9164 75.54 11.48 0.9649
854.802 -3 81.54 9.609 0.1813 1.066
1.272 80.76 9.865 1.063
639.742 -4 76.29 14.20 0.2176 1.059
1.301 79.21 12.11 1.062
468.720 -5 78.67 8.611 0.1644 1.043
1.271 79.89 9.587 1.046
421.086 -6 76.67 9.996 0.2181 1.059
1.298 79.29 12.72 1.061
351.816 -7 77.23 9.589 0.1977 1.047
1.255 79.50 9.711 1.049
349.322 -8 77.02 9.232 0.2148 1.055
1.278 79.39 11.19 1.057
331.873 -9 77.01 9.211 0.2115 1.052
1.268 79.39 9.959 1.054
331.727 0 77.01 9.220 0.2121 1.052
1.268 79.39 9.988 1.055
331.495 -1 76.99 9.273 0.2139 1.052
1.267 79.38 10.11 1.055
331.470 -2 77.00 9.283 0.2144 1.053
1.269 79.38 10.08 1.055
331.449 -3 77.00 9.285 0.2146 1.054
1.274 79.38 10.10 1.056
331.449 0 77.00 9.286 0.2146 1.054
1.274 79.38 10.10 1.056
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.64E-06 | 0.00 0.00 -0.24 0.71 -0.25 0.00 0.00 0.62
1.86E-06 | 0.00 0.00 -0.02 -0.66 -0.01 0.00 0.00 0.75
1.80E-05 | 0.00 0.01 -0.97 -0.16 0.07 0.00 0.04 -0.17
3.94E-03 | 0.03 -0.05 0.02 -0.10 -0.56 0.05 0.81 -0.10
4.94E-03 | -0.04 -0.08 0.03 0.15 0.78 -0.03 0.58 0.15
7.29E-02 | 0.76 0.65 0.01 0.01 0.06 -0.05 0.06 0.01
1.03E-01 | 0.34 -0.33 -0.01 0.01 0.05 0.88 -0.05 0.01
8.46E-02 | 0.56 -0.68 -0.01 -0.01 -0.02 -0.47 -0.05 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.0028 +/- 0.282284 1
2 2 1 gaussian Sigma keV 9.28578 +/- 0.284508 1
3 3 1 gaussian norm 0.214591 +/- 0.599643E-02 1
4 4 2 powerlaw PhoIndex 1.05368 +/- 0.136894E-01 1
5 5 2 powerlaw norm 1.27422 +/- 0.693971E-01 1
6 6 3 gaussian LineE keV 79.3840 +/- 0.313279 2
7 7 3 gaussian Sigma keV 10.0968 +/- 0.701154E-01 2
8 3 3 gaussian norm 0.214591 = par 3 2
9 8 4 powerlaw PhoIndex 1.05623 +/- 0.131587E-01 2
10 5 4 powerlaw norm 1.27422 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 331.4488 using 168 PHA bins.
Reduced chi-squared = 2.071555 for 160 degrees of freedom
Null hypothesis probability = 4.826E-14
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 76.5530 77.4524 ( -0.449814 , 0.449562 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 78.8862 79.8789 ( -0.497803 , 0.494934 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.358 photons ( 1.6143E-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 ( 1.6075E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w01_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
57.78987
=====best line=====
77.0049 0.282228
=====best sigma=====
9.28577 0.284479
=====norm=====
0.214609 0.599633E-02
=====phoindx=====
1.05409 0.136908E-01
=====pow_norm=====
1.27636 0.695194E-01
=====best line=====
79.3863 0.313144
=====best sigma=====
10.1006 0.703943E-01
=====norm=====
0.214609 par
=====phoindx=====
1.05663 0.131600E-01
=====pow_norm=====
1.27636 par
=====redu_chi=====
2.071549
=====slow error=====
-0.449913 0.449432
=====fast error=====
-0.498306 0.494659
=====area_flux=====
1.358
=====area_flux_f=====
1.346
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.19476 7.94372
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 1 1 640 2000 1232.0784 7.19476 0.214609 0.599633E-02 9.28577 0.284479 1.05409 0.136908E-01 1.27636 0.695194E-01 1.358 640 2000 1270.1808 7.94372 0.214609 0.599633E-02 10.1006 0.703943E-01 1.05663 0.131600E-01 1.27636 0.695194E-01 1.346 2.071549 0
=====redu_chi=====
225.9616
=====best line=====
122.089 0.223753
=====best sigma=====
19.3655 2.39595
=====norm=====
1.30777 0.847156E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
120.095 0.233388
=====best sigma=====
19.3655 2.09014
=====norm=====
1.30777 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
36.44791
=====area_flux=====
1.142
=====area_flux_f=====
1.112
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.19476 7.94372
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 1 1 1600 3200 1953.424 7.19476 1.30777 0.847156E-02 309.848 38.3352 9.50000 -1.00000 0.00000 -1.00000 1.142 1600 3200 1921.52 7.94372 1.30777 0.847156E-02 309.848 33.44224 9.50000 -1.00000 0.00000 -1.00000 1.112 36.44791 1
=====redu_chi=====
86.79289
=====best line=====
77.0028 0.282284
=====best sigma=====
9.28578 0.284508
=====norm=====
0.214591 0.599643E-02
=====phoindx=====
1.05368 0.136894E-01
=====pow_norm=====
1.27422 0.693971E-01
=====best line=====
79.3840 0.313279
=====best sigma=====
10.0968 0.701154E-01
=====norm=====
0.214591 par
=====phoindx=====
1.05623 0.131587E-01
=====pow_norm=====
1.27422 par
=====redu_chi=====
2.071555
=====slow error=====
-0.449814 0.449562
=====fast error=====
-0.497803 0.494934
=====area_flux=====
1.358
=====area_flux_f=====
1.346
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.195008 7.941896
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 1 1 640 2000 1232.0448 7.195008 0.214591 0.599643E-02 9.28578 0.284508 1.05368 0.136894E-01 1.27422 0.693971E-01 1.358 640 2000 1270.144 7.941896 0.214591 0.599643E-02 10.0968 0.701154E-01 1.05623 0.131587E-01 1.27422 0.693971E-01 1.346 2.071555 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:09:51 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.447 +/- 1.0740E-02
Net count rate (cts/s) for file 2 3.447 +/- 1.0740E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 138476.6 using 168 PHA bins.
Reduced chi-squared = 865.4785 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 10515.21 using 168 PHA bins.
Reduced chi-squared = 65.72005 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5126.24 -3 82.00 16.79 0.2457 1.068
0.9085 82.43 16.59 1.060
678.620 -3 70.50 9.552 0.1966 0.8873
0.6400 72.23 9.699 0.8968
593.920 -2 73.84 10.11 0.2083 0.9216
0.7020 74.94 15.11 0.9233
423.112 -2 74.02 9.723 0.1886 0.9408
0.7732 74.94 8.796 0.9425
393.876 -1 73.93 9.266 0.2010 0.9432
0.7800 75.39 11.16 0.9453
362.626 -2 74.00 9.420 0.2036 0.9622
0.8394 75.42 9.984 0.9636
351.531 -2 74.09 9.438 0.2057 0.9767
0.8927 75.59 10.40 0.9783
350.542 -3 74.33 9.388 0.2051 1.017
1.044 75.87 10.09 1.017
333.583 -4 74.40 9.440 0.2065 1.030
1.120 75.95 10.18 1.032
332.543 -5 74.41 9.426 0.2062 1.030
1.125 75.96 10.13 1.032
332.533 -6 74.41 9.434 0.2064 1.030
1.125 75.96 10.15 1.032
332.533 0 74.41 9.433 0.2064 1.030
1.125 75.96 10.15 1.032
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.64E-06 | 0.00 0.00 -0.25 0.70 -0.28 0.00 0.00 0.61
1.89E-06 | 0.00 0.00 -0.02 -0.67 -0.01 0.00 0.00 0.74
1.86E-05 | 0.00 0.01 -0.97 -0.16 0.08 0.00 0.04 -0.17
3.55E-03 | 0.05 -0.02 0.01 -0.19 -0.90 0.05 0.35 -0.18
3.98E-03 | -0.01 -0.08 0.04 0.08 0.33 0.01 0.93 0.08
8.08E-02 | 0.70 0.72 0.01 0.01 0.04 0.01 0.05 0.01
1.21E-01 | -0.43 0.43 0.01 -0.01 -0.05 -0.79 0.06 -0.01
9.54E-02 | -0.57 0.55 0.01 0.00 0.01 0.61 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 74.4071 +/- 0.304762 1
2 2 1 gaussian Sigma keV 9.43319 +/- 0.303395 1
3 3 1 gaussian norm 0.206401 +/- 0.608480E-02 1
4 4 2 powerlaw PhoIndex 1.03004 +/- 0.135026E-01 1
5 5 2 powerlaw norm 1.12539 +/- 0.613923E-01 1
6 6 3 gaussian LineE keV 75.9570 +/- 0.333592 2
7 7 3 gaussian Sigma keV 10.1456 +/- 0.676093E-01 2
8 3 3 gaussian norm 0.206401 = par 3 2
9 8 4 powerlaw PhoIndex 1.03237 +/- 0.129696E-01 2
10 5 4 powerlaw norm 1.12539 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 332.5326 using 168 PHA bins.
Reduced chi-squared = 2.078329 for 160 degrees of freedom
Null hypothesis probability = 3.623E-14
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 73.9266 74.8871 ( -0.480446 , 0.480011 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 75.4334 76.4774 ( -0.523636 , 0.520409 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.323 photons ( 1.5671E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.312 photons ( 1.5589E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:09:52 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.755 +/- 1.6108E-02
Net count rate (cts/s) for file 2 7.755 +/- 1.6108E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.308 +/- 1.9360E-02( 55.5% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.308 +/- 1.9360E-02( 55.5% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 2413669. using 198 PHA bins.
Reduced chi-squared = 12703.52 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 31334.78 using 198 PHA bins.
Reduced chi-squared = 164.9199 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
15510.1 -3 122.1 19.35 0.3919 2.834
0.2284 118.5 17.66 2.767
6099.35 -2 107.0 19.36 1.123 8.525
0.1007 108.5 19.13 7.830
5675.03 -1 109.1 19.36 1.361 9.253
8.3902E-03 109.4 19.34 9.052
5383.03 0 110.0 19.37 1.316 9.401
1.7904E-03 110.0 19.36 9.458
5181.34 0 111.0 19.37 1.283 9.473
7.9356E-04 110.6 19.36 9.498
5042.31 0 111.8 19.37 1.258 9.491
3.7618E-05 111.2 19.36 9.500
4948.93 0 112.5 19.37 1.237 9.498
1.0150E-05 111.6 19.36 9.500
4889.32 0 113.1 19.37 1.221 9.499
2.9917E-06 112.0 19.37 9.500
4852.31 0 113.6 19.37 1.207 9.500
1.1644E-06 112.4 19.37 9.500
4829.97 0 113.9 19.37 1.196 9.500
2.3632E-07 112.6 19.37 9.500
4817.52 0 114.3 19.37 1.187 9.500
1.4995E-09 112.8 19.37 9.500
4786.52 0 114.8 19.37 1.167 9.500
1.1822E-10 113.0 19.37 9.500
4783.66 0 114.9 19.37 1.163 9.500
3.6488E-11 113.0 19.37 9.500
4782.66 0 114.9 19.37 1.161 9.500
1.6029E-11 113.1 19.37 9.500
4782.52 0 115.0 19.37 1.159 9.500
5.8086E-12 113.1 19.37 9.500
4765.71 0 115.0 19.37 1.157 9.500
2.4978E-12 113.0 19.30 9.500
4754.04 0 115.0 19.37 1.156 9.500
8.7988E-13 113.0 19.25 9.500
4745.60 0 115.0 19.37 1.154 9.500
8.6140E-14 112.9 19.20 9.500
Fit parameter 5 has pegged
4721.83 0 114.9 19.37 1.147 9.500
0.000 112.8 18.87 9.500
Fit parameter 5 has pegged
4720.54 0 114.9 19.37 1.144 9.500
0.000 112.9 18.83 9.500
Fit parameter 5 has pegged
4719.76 0 114.9 19.37 1.142 9.500
0.000 112.9 18.81 9.500
Fit parameter 5 has pegged
4718.94 0 114.9 19.37 1.141 9.500
0.000 113.0 18.78 9.500
Fit parameter 5 has pegged
4717.98 0 114.9 19.37 1.140 9.500
0.000 113.0 18.76 9.500
Fit parameter 5 has pegged
4717.44 0 114.9 19.37 1.139 9.500
0.000 113.1 18.75 9.500
Fit parameter 5 has pegged
4716.82 0 114.9 19.37 1.138 9.500
0.000 113.1 18.74 9.500
Fit parameter 5 has pegged
4716.45 0 114.9 19.37 1.137 9.500
0.000 113.1 18.73 9.500
Fit parameter 5 has pegged
4715.99 0 114.9 19.37 1.137 9.500
0.000 113.2 18.72 9.500
Fit parameter 5 has pegged
4715.69 0 114.9 19.37 1.136 9.500
0.000 113.2 18.72 9.500
Fit parameter 5 has pegged
4715.32 0 114.9 19.37 1.136 9.500
0.000 113.2 18.71 9.500
Fit parameter 5 has pegged
4715.11 0 114.9 19.37 1.135 9.500
0.000 113.2 18.70 9.500
Fit parameter 5 has pegged
4714.95 0 114.9 19.37 1.135 9.500
0.000 113.2 18.70 9.500
Fit parameter 5 has pegged
4714.74 0 115.0 19.37 1.135 9.500
0.000 113.2 18.70 9.500
Fit parameter 5 has pegged
4714.60 0 115.0 19.37 1.135 9.500
0.000 113.2 18.69 9.500
Fit parameter 5 has pegged
4714.34 0 115.0 19.37 1.134 9.500
0.000 113.2 18.69 9.500
Fit parameter 5 has pegged
4714.33 0 115.0 19.37 1.134 9.500
0.000 113.2 18.69 9.500
4712.82 0 115.0 19.37 1.133 9.500
0.000 113.3 18.70 9.500
Fit parameter 5 has pegged
4712.21 0 115.1 19.37 1.133 9.500
0.000 113.3 18.70 9.500
Fit parameter 5 has pegged
4711.67 0 115.1 19.37 1.132 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
4711.17 0 115.1 19.37 1.132 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
4710.73 0 115.1 19.37 1.132 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
4710.32 0 115.2 19.37 1.131 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
4709.96 0 115.2 19.37 1.131 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
4709.62 0 115.2 19.37 1.130 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
4709.32 0 115.2 19.37 1.130 9.500
0.000 113.3 18.68 9.500
Fit parameter 5 has pegged
4709.05 0 115.2 19.37 1.130 9.500
0.000 113.3 18.68 9.500
Fit parameter 5 has pegged
4708.79 0 115.3 19.37 1.129 9.500
0.000 113.3 18.68 9.500
Fit parameter 5 has pegged
4708.57 0 115.3 19.37 1.129 9.500
0.000 113.3 18.68 9.500
Fit parameter 5 has pegged
4708.36 0 115.3 19.37 1.129 9.500
0.000 113.3 18.68 9.500
Fit parameter 5 has pegged
4708.16 0 115.3 19.37 1.128 9.500
0.000 113.3 18.68 9.500
Fit parameter 5 has pegged
4707.97 0 115.3 19.37 1.128 9.500
0.000 113.3 18.67 9.500
Fit parameter 5 has pegged
4707.79 0 115.3 19.37 1.128 9.500
0.000 113.3 18.67 9.500
Fit parameter 5 has pegged
4707.63 0 115.3 19.37 1.127 9.500
0.000 113.3 18.67 9.500
Fit parameter 5 has pegged
4707.51 0 115.3 19.37 1.127 9.500
0.000 113.3 18.67 9.500
Fit parameter 5 has pegged
4707.37 0 115.4 19.37 1.127 9.500
0.000 113.3 18.67 9.500
Fit parameter 5 has pegged
4707.25 0 115.4 19.37 1.127 9.500
0.000 113.3 18.67 9.500
Fit parameter 5 has pegged
4707.14 0 115.4 19.37 1.126 9.500
0.000 113.3 18.66 9.500
Fit parameter 5 has pegged
4707.03 0 115.4 19.37 1.126 9.500
0.000 113.3 18.66 9.500
Fit parameter 5 has pegged
4706.92 0 115.4 19.37 1.126 9.500
0.000 113.3 18.66 9.500
Fit parameter 5 has pegged
4706.81 0 115.4 19.37 1.126 9.500
0.000 113.3 18.66 9.500
Fit parameter 5 has pegged
4706.75 0 115.4 19.37 1.125 9.500
0.000 113.3 18.66 9.500
Fit parameter 5 has pegged
4706.67 0 115.4 19.37 1.125 9.500
0.000 113.3 18.66 9.500
Fit parameter 5 has pegged
4706.58 0 115.4 19.37 1.125 9.500
0.000 113.3 18.65 9.500
Fit parameter 5 has pegged
4706.52 0 115.4 19.37 1.125 9.500
0.000 113.3 18.65 9.500
Fit parameter 5 has pegged
4706.43 0 115.4 19.37 1.125 9.500
0.000 113.3 18.65 9.500
Fit parameter 5 has pegged
4706.37 0 115.4 19.37 1.124 9.500
0.000 113.3 18.65 9.500
Fit parameter 5 has pegged
4706.32 0 115.4 19.37 1.124 9.500
0.000 113.4 18.65 9.500
Fit parameter 5 has pegged
4706.27 0 115.4 19.37 1.124 9.500
0.000 113.4 18.65 9.500
Fit parameter 5 has pegged
4706.21 0 115.5 19.37 1.124 9.500
0.000 113.4 18.65 9.500
Fit parameter 5 has pegged
4706.15 0 115.5 19.37 1.124 9.500
0.000 113.4 18.64 9.500
Fit parameter 5 has pegged
4706.10 0 115.5 19.37 1.124 9.500
0.000 113.4 18.64 9.500
Fit parameter 5 has pegged
4706.07 0 115.5 19.37 1.124 9.500
0.000 113.4 18.64 9.500
Fit parameter 5 has pegged
4706.01 0 115.5 19.37 1.123 9.500
0.000 113.4 18.64 9.500
Fit parameter 5 has pegged
4705.99 0 115.5 19.37 1.123 9.500
0.000 113.4 18.64 9.500
Fit parameter 5 has pegged
4705.95 0 115.5 19.37 1.123 9.500
0.000 113.4 18.64 9.500
Fit parameter 5 has pegged
4705.90 0 115.5 19.37 1.123 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.87 0 115.5 19.37 1.123 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.82 0 115.5 19.37 1.123 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.80 0 115.5 19.37 1.123 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.78 0 115.5 19.37 1.123 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.73 0 115.5 19.37 1.122 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.71 0 115.5 19.37 1.122 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.69 0 115.5 19.37 1.122 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.68 0 115.5 19.37 1.122 9.500
0.000 113.4 18.62 9.500
4705.61 0 115.5 19.37 1.122 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.58 0 115.5 19.37 1.122 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.55 0 115.5 19.37 1.122 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.54 0 115.5 19.37 1.122 9.500
0.000 113.4 18.62 9.500
4705.52 0 115.5 19.37 1.122 9.500
0.000 113.4 18.63 9.500
Fit parameter 5 has pegged
4705.48 0 115.5 19.37 1.122 9.500
0.000 113.4 18.62 9.500
Fit parameter 5 has pegged
4705.48 0 115.5 19.37 1.121 9.500
0.000 113.5 18.62 9.500
4705.45 0 115.5 19.37 1.121 9.500
0.000 113.5 18.62 9.500
Fit parameter 5 has pegged
4705.42 0 115.5 19.37 1.121 9.500
0.000 113.5 18.62 9.500
Fit parameter 5 has pegged
4705.41 0 115.5 19.37 1.121 9.500
0.000 113.5 18.62 9.500
4705.39 1 115.5 19.37 1.121 9.500
0.000 113.5 18.62 9.500
Fit parameter 5 has pegged
4705.39 3 115.5 19.37 1.121 9.500
0.000 113.5 18.62 9.500
4705.39 4 115.5 19.37 1.121 9.500
0.000 113.5 18.62 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.48E-05 | -0.01 0.00 -1.00 -0.01 0.00
3.62E-02 | 0.22 0.01 0.01 -0.90 -0.39
5.06E-02 | -0.97 -0.07 0.01 -0.17 -0.17
2.93E-01 | 0.08 0.08 -0.01 0.41 -0.90
7.24E+00 | -0.08 0.99 0.00 -0.04 0.06
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 115.533 +/- 0.306725 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.67676 1
3 3 1 gaussian norm 1.12113 +/- 0.100321E-01 1
4 4 2 powerlaw PhoIndex 9.50009 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.455 +/- 0.300321 2
7 7 3 gaussian Sigma keV 18.6150 +/- 0.522124 2
8 3 3 gaussian norm 1.12113 = par 3 2
9 8 4 powerlaw PhoIndex 9.50003 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 4705.388 using 198 PHA bins.
Reduced chi-squared = 24.76520 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 ( 23.885) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 23.885) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 0.8842 photons ( 1.7373E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.8577 photons ( 1.6619E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:09:52 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.447 +/- 1.0740E-02
Net count rate (cts/s) for file 2 3.447 +/- 1.0740E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 173011.6 using 168 PHA bins.
Reduced chi-squared = 1081.323 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15982.49 using 168 PHA bins.
Reduced chi-squared = 99.89055 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
9609.41 -3 85.44 14.41 0.1599 1.106
0.9856 85.49 13.82 1.093
1626.01 -4 66.28 17.65 0.2586 0.9911
1.000 68.98 16.94 1.000
1090.96 -1 77.25 6.021 0.2145 1.003
0.9771 76.86 8.559 1.004
396.608 -2 76.16 8.308 0.1896 1.009
1.040 76.28 9.633 1.011
379.408 -3 74.52 9.917 0.2091 1.029
1.113 75.93 12.10 1.031
336.064 -4 74.53 9.051 0.1972 1.029
1.130 76.07 9.868 1.031
334.545 0 74.48 9.180 0.1990 1.029
1.129 76.05 9.910 1.032
333.788 0 74.45 9.249 0.2005 1.029
1.129 76.03 9.952 1.032
333.336 0 74.44 9.292 0.2017 1.030
1.128 76.02 9.985 1.032
332.670 -1 74.40 9.422 0.2053 1.030
1.126 75.97 10.19 1.032
332.543 -2 74.41 9.431 0.2063 1.030
1.126 75.96 10.12 1.032
332.532 -3 74.41 9.432 0.2064 1.030
1.125 75.96 10.15 1.032
332.532 4 74.41 9.432 0.2064 1.030
1.125 75.96 10.15 1.032
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.64E-06 | 0.00 0.00 -0.25 0.70 -0.28 0.00 0.00 0.61
1.89E-06 | 0.00 0.00 -0.02 -0.67 -0.01 0.00 0.00 0.74
1.86E-05 | 0.00 0.01 -0.97 -0.16 0.08 0.00 0.04 -0.17
3.55E-03 | 0.05 -0.02 0.01 -0.19 -0.90 0.05 0.35 -0.18
3.98E-03 | -0.01 -0.08 0.04 0.08 0.33 0.01 0.93 0.08
8.07E-02 | 0.70 0.72 0.01 0.01 0.04 0.01 0.05 0.01
1.21E-01 | 0.43 -0.43 -0.01 0.01 0.05 0.79 -0.05 0.01
9.54E-02 | 0.57 -0.55 -0.01 0.00 -0.01 -0.61 -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 74.4075 +/- 0.304704 1
2 2 1 gaussian Sigma keV 9.43211 +/- 0.303331 1
3 3 1 gaussian norm 0.206375 +/- 0.608399E-02 1
4 4 2 powerlaw PhoIndex 1.03005 +/- 0.135019E-01 1
5 5 2 powerlaw norm 1.12545 +/- 0.613913E-01 1
6 6 3 gaussian LineE keV 75.9576 +/- 0.333617 2
7 7 3 gaussian Sigma keV 10.1512 +/- 0.676182E-01 2
8 3 3 gaussian norm 0.206375 = par 3 2
9 8 4 powerlaw PhoIndex 1.03238 +/- 0.129689E-01 2
10 5 4 powerlaw norm 1.12545 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 332.5322 using 168 PHA bins.
Reduced chi-squared = 2.078326 for 160 degrees of freedom
Null hypothesis probability = 3.623E-14
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 73.9268 74.8872 ( -0.480728 , 0.479706 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 75.4327 76.4772 ( -0.524879 , 0.519562 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.323 photons ( 1.5671E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.312 photons ( 1.5589E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w02_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
65.72005
=====best line=====
74.4071 0.304762
=====best sigma=====
9.43319 0.303395
=====norm=====
0.206401 0.608480E-02
=====phoindx=====
1.03004 0.135026E-01
=====pow_norm=====
1.12539 0.613923E-01
=====best line=====
75.9570 0.333592
=====best sigma=====
10.1456 0.676093E-01
=====norm=====
0.206401 par
=====phoindx=====
1.03237 0.129696E-01
=====pow_norm=====
1.12539 par
=====redu_chi=====
2.078329
=====slow error=====
-0.480446 0.480011
=====fast error=====
-0.523636 0.520409
=====area_flux=====
1.323
=====area_flux_f=====
1.312
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.683656 8.35236
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 2 1 640 2000 1190.5136 7.683656 0.206401 0.608480E-02 9.43319 0.303395 1.03004 0.135026E-01 1.12539 0.613923E-01 1.323 640 2000 1215.312 8.35236 0.206401 0.608480E-02 10.1456 0.676093E-01 1.03237 0.129696E-01 1.12539 0.613923E-01 1.312 2.078329 0
=====redu_chi=====
164.9199
=====best line=====
115.533 0.306725
=====best sigma=====
19.3655 2.67676
=====norm=====
1.12113 0.100321E-01
=====phoindx=====
9.50009 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.455 0.300321
=====best sigma=====
18.6150 0.522124
=====norm=====
1.12113 par
=====phoindx=====
9.50003 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
24.76520
=====area_flux=====
0.8842
=====area_flux_f=====
0.8577
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.683656 8.35236
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 2 1 1600 3200 1848.528 7.683656 1.12113 0.100321E-01 309.848 42.82816 9.50009 -1.00000 0.00000 -1.00000 0.8842 1600 3200 1815.28 8.35236 1.12113 0.100321E-01 297.84 8.353984 9.50003 -1.00000 0.00000 -1.00000 0.8577 24.76520 1
=====redu_chi=====
99.89055
=====best line=====
74.4075 0.304704
=====best sigma=====
9.43211 0.303331
=====norm=====
0.206375 0.608399E-02
=====phoindx=====
1.03005 0.135019E-01
=====pow_norm=====
1.12545 0.613913E-01
=====best line=====
75.9576 0.333617
=====best sigma=====
10.1512 0.676182E-01
=====norm=====
0.206375 par
=====phoindx=====
1.03238 0.129689E-01
=====pow_norm=====
1.12545 par
=====redu_chi=====
2.078326
=====slow error=====
-0.480728 0.479706
=====fast error=====
-0.524879 0.519562
=====area_flux=====
1.323
=====area_flux_f=====
1.312
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.683472 8.355528
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 2 1 640 2000 1190.52 7.683472 0.206375 0.608399E-02 9.43211 0.303331 1.03005 0.135019E-01 1.12545 0.613913E-01 1.323 640 2000 1215.3216 8.355528 0.206375 0.608399E-02 10.1512 0.676182E-01 1.03238 0.129689E-01 1.12545 0.613913E-01 1.312 2.078326 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:09:53 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.467 +/- 1.0770E-02
Net count rate (cts/s) for file 2 3.467 +/- 1.0770E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 154093.2 using 168 PHA bins.
Reduced chi-squared = 963.0827 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12336.25 using 168 PHA bins.
Reduced chi-squared = 77.10155 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
9281.09 -3 80.76 17.31 0.2646 1.147
1.004 81.16 17.07 1.132
1166.02 -3 65.84 17.75 0.2938 0.8748
0.5306 68.22 17.02 0.8894
906.744 0 67.98 9.053 0.3086 0.8785
0.5302 69.68 13.70 0.8859
613.438 -1 69.63 12.68 0.2744 0.8808
0.5478 71.44 12.50 0.8828
487.777 -2 70.98 9.866 0.2422 0.9173
0.6442 72.50 10.84 0.9162
433.128 -2 71.14 9.663 0.2416 0.9461
0.7356 73.01 10.72 0.9457
400.717 -2 71.30 9.572 0.2383 0.9695
0.8189 73.23 10.54 0.9692
380.636 -2 71.42 9.514 0.2364 0.9882
0.8916 73.40 10.45 0.9882
368.320 -2 71.52 9.477 0.2352 1.003
0.9537 73.53 10.39 1.003
360.760 -2 71.59 9.453 0.2344 1.015
1.006 73.62 10.35 1.015
358.520 -3 71.78 9.385 0.2328 1.049
1.150 73.86 10.27 1.048
349.238 -4 71.84 9.396 0.2328 1.060
1.218 73.94 10.25 1.060
348.703 -5 71.84 9.397 0.2328 1.060
1.222 73.94 10.25 1.060
348.702 -6 71.84 9.397 0.2328 1.060
1.222 73.94 10.25 1.060
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.76E-06 | 0.00 0.00 -0.25 0.69 -0.26 0.00 0.00 0.63
2.01E-06 | 0.00 0.00 -0.02 -0.68 0.00 0.00 0.00 0.73
1.95E-05 | 0.00 0.01 -0.97 -0.17 0.07 0.00 0.05 -0.17
2.39E-03 | 0.01 -0.07 0.05 0.01 0.01 0.02 1.00 0.02
4.30E-03 | -0.07 0.01 0.00 0.19 0.96 -0.07 -0.01 0.18
6.30E-02 | 0.68 0.73 0.01 0.01 0.04 0.03 0.04 0.01
1.04E-01 | 0.44 -0.44 -0.01 0.01 0.08 0.78 -0.05 0.01
7.71E-02 | 0.59 -0.52 -0.01 0.00 0.00 -0.62 -0.02 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 71.8416 +/- 0.274678 1
2 2 1 gaussian Sigma keV 9.39705 +/- 0.273013 1
3 3 1 gaussian norm 0.232842 +/- 0.620961E-02 1
4 4 2 powerlaw PhoIndex 1.05961 +/- 0.137850E-01 1
5 5 2 powerlaw norm 1.22166 +/- 0.688167E-01 1
6 6 3 gaussian LineE keV 73.9441 +/- 0.305454 2
7 7 3 gaussian Sigma keV 10.2487 +/- 0.528800E-01 2
8 3 3 gaussian norm 0.232842 = par 3 2
9 8 4 powerlaw PhoIndex 1.06044 +/- 0.132292E-01 2
10 5 4 powerlaw norm 1.22166 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 348.7020 using 168 PHA bins.
Reduced chi-squared = 2.179388 for 160 degrees of freedom
Null hypothesis probability = 4.567E-16
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.088) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.088) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.302 photons ( 1.5288E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.298 photons ( 1.5321E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:09:53 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.088 +/- 1.6451E-02
Net count rate (cts/s) for file 2 8.088 +/- 1.6451E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.622 +/- 1.9663E-02( 57.1% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.622 +/- 1.9663E-02( 57.1% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 2428375. using 198 PHA bins.
Reduced chi-squared = 12780.92 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 36528.26 using 198 PHA bins.
Reduced chi-squared = 192.2540 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
17698.2 -3 123.3 17.62 0.4311 2.820
0.2403 120.5 17.64 2.753
7365.10 -2 108.8 19.09 1.188 6.787
0.1075 107.9 18.97 6.384
6961.96 -1 109.3 19.25 1.488 8.829
5.3149E-02 109.0 19.36 8.832
6601.04 0 110.1 19.32 1.438 9.299
2.4760E-02 109.7 19.36 9.413
6360.31 0 110.9 19.35 1.402 9.413
1.1484E-02 110.3 19.36 9.494
6197.40 0 111.7 19.36 1.375 9.477
5.4664E-03 110.9 19.37 9.498
6089.02 0 112.4 19.36 1.352 9.491
5.2667E-04 111.5 19.37 9.499
6017.65 0 112.9 19.37 1.333 9.497
4.4648E-05 111.9 19.37 9.500
5974.46 0 113.4 19.37 1.318 9.499
1.2142E-05 112.3 19.37 9.500
5949.43 0 113.8 19.37 1.305 9.500
3.8029E-06 112.6 19.37 9.500
5935.60 0 114.1 19.37 1.295 9.500
1.6864E-06 112.8 19.37 9.500
5928.71 0 114.4 19.37 1.287 9.500
6.1900E-07 113.0 19.37 9.500
5926.97 0 114.6 19.37 1.280 9.500
8.0943E-08 113.1 19.37 9.500
5899.01 0 114.9 19.37 1.266 9.500
1.4172E-09 113.1 19.36 9.500
5898.22 0 114.9 19.37 1.263 9.500
6.7835E-10 113.1 19.36 9.500
5879.25 0 114.9 19.37 1.260 9.500
2.0394E-10 113.0 19.30 9.500
5865.86 0 114.9 19.37 1.258 9.500
8.7893E-11 113.0 19.25 9.500
5856.37 0 114.9 19.37 1.256 9.500
3.0880E-11 112.9 19.21 9.500
5849.38 0 114.9 19.37 1.255 9.500
2.7794E-12 112.9 19.18 9.500
5844.20 0 114.9 19.37 1.253 9.500
1.0449E-12 112.9 19.15 9.500
5840.28 0 114.9 19.37 1.252 9.500
1.8618E-13 112.8 19.12 9.500
5837.23 0 115.0 19.37 1.251 9.500
7.9714E-14 112.8 19.10 9.500
Fit parameter 5 has pegged
5826.59 0 114.8 19.37 1.245 9.500
0.000 112.8 18.90 9.500
Fit parameter 5 has pegged
5826.22 0 114.7 19.37 1.243 9.500
0.000 112.9 18.85 9.500
Fit parameter 5 has pegged
5826.21 0 114.7 19.37 1.242 9.500
0.000 112.9 18.83 9.500
5824.58 0 114.8 19.37 1.241 9.500
0.000 112.9 18.84 9.500
Fit parameter 5 has pegged
5823.90 0 114.8 19.37 1.240 9.500
0.000 113.0 18.83 9.500
Fit parameter 5 has pegged
5823.28 0 114.8 19.37 1.239 9.500
0.000 113.0 18.83 9.500
Fit parameter 5 has pegged
5822.74 0 114.8 19.37 1.239 9.500
0.000 113.0 18.82 9.500
Fit parameter 5 has pegged
5822.22 0 114.8 19.37 1.238 9.500
0.000 113.0 18.82 9.500
Fit parameter 5 has pegged
5821.74 0 114.9 19.37 1.238 9.500
0.000 113.0 18.82 9.500
Fit parameter 5 has pegged
5821.31 0 114.9 19.37 1.237 9.500
0.000 113.0 18.81 9.500
Fit parameter 5 has pegged
5820.92 0 114.9 19.37 1.237 9.500
0.000 113.0 18.81 9.500
Fit parameter 5 has pegged
5820.54 0 114.9 19.37 1.236 9.500
0.000 113.0 18.81 9.500
Fit parameter 5 has pegged
5820.19 0 114.9 19.37 1.236 9.500
0.000 113.0 18.81 9.500
Fit parameter 5 has pegged
5819.85 0 115.0 19.37 1.235 9.500
0.000 113.0 18.80 9.500
Fit parameter 5 has pegged
5819.57 0 115.0 19.37 1.235 9.500
0.000 113.0 18.80 9.500
Fit parameter 5 has pegged
5819.28 0 115.0 19.37 1.234 9.500
0.000 113.0 18.80 9.500
Fit parameter 5 has pegged
5818.98 0 115.0 19.37 1.234 9.500
0.000 113.0 18.79 9.500
Fit parameter 5 has pegged
5818.74 0 115.0 19.37 1.234 9.500
0.000 113.0 18.79 9.500
Fit parameter 5 has pegged
5818.51 0 115.0 19.37 1.233 9.500
0.000 113.0 18.79 9.500
Fit parameter 5 has pegged
5818.30 0 115.0 19.37 1.233 9.500
0.000 113.1 18.78 9.500
Fit parameter 5 has pegged
5818.12 0 115.0 19.37 1.232 9.500
0.000 113.1 18.78 9.500
Fit parameter 5 has pegged
5817.89 0 115.0 19.37 1.232 9.500
0.000 113.1 18.78 9.500
Fit parameter 5 has pegged
5817.70 0 115.1 19.37 1.232 9.500
0.000 113.1 18.78 9.500
Fit parameter 5 has pegged
5817.54 0 115.1 19.37 1.231 9.500
0.000 113.1 18.77 9.500
Fit parameter 5 has pegged
5817.39 0 115.1 19.37 1.231 9.500
0.000 113.1 18.77 9.500
Fit parameter 5 has pegged
5817.19 0 115.1 19.37 1.231 9.500
0.000 113.1 18.77 9.500
Fit parameter 5 has pegged
5817.06 0 115.1 19.37 1.231 9.500
0.000 113.1 18.77 9.500
Fit parameter 5 has pegged
5816.91 0 115.1 19.37 1.230 9.500
0.000 113.1 18.76 9.500
Fit parameter 5 has pegged
5816.78 0 115.1 19.37 1.230 9.500
0.000 113.1 18.76 9.500
Fit parameter 5 has pegged
5816.64 0 115.1 19.37 1.230 9.500
0.000 113.1 18.76 9.500
Fit parameter 5 has pegged
5816.54 0 115.1 19.37 1.230 9.500
0.000 113.1 18.76 9.500
Fit parameter 5 has pegged
5816.45 0 115.1 19.37 1.229 9.500
0.000 113.1 18.75 9.500
Fit parameter 5 has pegged
5816.31 0 115.1 19.37 1.229 9.500
0.000 113.1 18.75 9.500
Fit parameter 5 has pegged
5816.23 0 115.1 19.37 1.229 9.500
0.000 113.2 18.75 9.500
Fit parameter 5 has pegged
5816.12 0 115.1 19.37 1.229 9.500
0.000 113.2 18.75 9.500
Fit parameter 5 has pegged
5816.04 0 115.1 19.37 1.228 9.500
0.000 113.2 18.74 9.500
Fit parameter 5 has pegged
5815.95 0 115.1 19.37 1.228 9.500
0.000 113.2 18.74 9.500
Fit parameter 5 has pegged
5815.86 0 115.2 19.37 1.228 9.500
0.000 113.2 18.74 9.500
Fit parameter 5 has pegged
5815.80 0 115.2 19.37 1.228 9.500
0.000 113.2 18.74 9.500
Fit parameter 5 has pegged
5815.72 0 115.2 19.37 1.228 9.500
0.000 113.2 18.73 9.500
Fit parameter 5 has pegged
5815.64 0 115.2 19.37 1.227 9.500
0.000 113.2 18.73 9.500
Fit parameter 5 has pegged
5815.56 0 115.2 19.37 1.227 9.500
0.000 113.2 18.73 9.500
Fit parameter 5 has pegged
5815.51 0 115.2 19.37 1.227 9.500
0.000 113.2 18.73 9.500
Fit parameter 5 has pegged
5815.43 0 115.2 19.37 1.227 9.500
0.000 113.2 18.73 9.500
Fit parameter 5 has pegged
5815.37 0 115.2 19.37 1.227 9.500
0.000 113.2 18.72 9.500
Fit parameter 5 has pegged
5815.30 0 115.2 19.37 1.226 9.500
0.000 113.2 18.72 9.500
Fit parameter 5 has pegged
5815.24 0 115.2 19.37 1.226 9.500
0.000 113.2 18.72 9.500
Fit parameter 5 has pegged
5815.22 0 115.2 19.37 1.226 9.500
0.000 113.2 18.72 9.500
Fit parameter 5 has pegged
5815.15 0 115.2 19.37 1.226 9.500
0.000 113.2 18.71 9.500
Fit parameter 5 has pegged
5815.10 0 115.2 19.37 1.226 9.500
0.000 113.2 18.71 9.500
Fit parameter 5 has pegged
5815.07 0 115.2 19.37 1.226 9.500
0.000 113.3 18.71 9.500
Fit parameter 5 has pegged
5815.02 0 115.2 19.37 1.226 9.500
0.000 113.3 18.71 9.500
Fit parameter 5 has pegged
5814.95 0 115.2 19.37 1.225 9.500
0.000 113.3 18.71 9.500
Fit parameter 5 has pegged
5814.93 0 115.2 19.37 1.225 9.500
0.000 113.3 18.71 9.500
Fit parameter 5 has pegged
5814.88 0 115.2 19.37 1.225 9.500
0.000 113.3 18.70 9.500
Fit parameter 5 has pegged
5814.84 0 115.2 19.37 1.225 9.500
0.000 113.3 18.70 9.500
Fit parameter 5 has pegged
5814.80 0 115.2 19.37 1.225 9.500
0.000 113.3 18.70 9.500
Fit parameter 5 has pegged
5814.77 0 115.2 19.37 1.225 9.500
0.000 113.3 18.70 9.500
Fit parameter 5 has pegged
5814.72 0 115.2 19.37 1.225 9.500
0.000 113.3 18.70 9.500
Fit parameter 5 has pegged
5814.69 0 115.2 19.37 1.225 9.500
0.000 113.3 18.70 9.500
Fit parameter 5 has pegged
5814.67 0 115.2 19.37 1.224 9.500
0.000 113.3 18.70 9.500
Fit parameter 5 has pegged
5814.63 0 115.2 19.37 1.224 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
5814.60 0 115.2 19.37 1.224 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
5814.59 0 115.2 19.37 1.224 9.500
0.000 113.3 18.69 9.500
5814.52 0 115.2 19.37 1.224 9.500
0.000 113.3 18.70 9.500
Fit parameter 5 has pegged
5814.50 0 115.2 19.37 1.224 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
5814.47 0 115.2 19.37 1.224 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
5814.46 0 115.2 19.37 1.224 9.500
0.000 113.3 18.69 9.500
5814.45 1 115.2 19.37 1.224 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
5814.42 0 115.2 19.37 1.224 9.500
0.000 113.3 18.69 9.500
Fit parameter 5 has pegged
5814.42 3 115.2 19.37 1.224 9.500
0.000 113.3 18.69 9.500
5814.42 4 115.2 19.37 1.224 9.500
0.000 113.3 18.69 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.64E-05 | -0.01 0.00 -1.00 -0.01 0.00
3.22E-02 | 0.27 0.01 0.01 -0.90 -0.34
4.35E-02 | -0.96 -0.08 0.01 -0.22 -0.17
6.06E+00 | 0.08 -0.99 0.00 0.04 -0.07
3.02E-01 | 0.07 0.08 -0.01 0.38 -0.92
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 115.240 +/- 0.289976 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.44660 1
3 3 1 gaussian norm 1.22361 +/- 0.102642E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.329 +/- 0.283534 2
7 7 3 gaussian Sigma keV 18.6877 +/- 0.538193 2
8 3 3 gaussian norm 1.22361 = 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 = 5814.419 using 198 PHA bins.
Reduced chi-squared = 30.60221 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 ( 29.515) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 29.515) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.9596 photons ( 1.8830E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9325 photons ( 1.8065E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:09:53 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.467 +/- 1.0770E-02
Net count rate (cts/s) for file 2 3.467 +/- 1.0770E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 193758.4 using 168 PHA bins.
Reduced chi-squared = 1210.990 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 18073.92 using 168 PHA bins.
Reduced chi-squared = 112.9620 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
16655.2 -3 85.14 15.04 0.1540 1.190
1.082 84.98 14.45 1.169
2953.77 -4 58.94 18.87 0.3444 1.070
1.351 62.59 18.40 1.084
648.766 -1 74.79 9.701 0.2809 1.088
1.285 74.58 10.99 1.088
359.177 -2 72.39 9.933 0.2356 1.075
1.301 74.07 10.38 1.075
349.035 -3 71.90 9.298 0.2311 1.063
1.244 73.98 10.19 1.064
348.739 -4 71.83 9.430 0.2333 1.059
1.221 73.94 10.28 1.060
348.705 -5 71.85 9.386 0.2327 1.060
1.222 73.94 10.24 1.060
348.702 -6 71.84 9.401 0.2329 1.060
1.222 73.94 10.25 1.060
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.76E-06 | 0.00 0.00 -0.25 0.69 -0.26 0.00 0.00 0.63
2.01E-06 | 0.00 0.00 -0.02 -0.68 0.00 0.00 0.00 0.73
1.95E-05 | 0.00 0.01 -0.97 -0.17 0.07 0.00 0.05 -0.17
2.44E-03 | 0.01 -0.07 0.05 0.01 0.01 0.02 1.00 0.02
4.30E-03 | -0.07 0.01 0.00 0.19 0.96 -0.07 -0.01 0.18
6.28E-02 | 0.68 0.73 0.01 0.01 0.04 0.03 0.04 0.01
1.04E-01 | 0.43 -0.44 -0.01 0.01 0.08 0.78 -0.05 0.01
7.70E-02 | 0.59 -0.52 -0.01 0.00 0.00 -0.62 -0.02 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 71.8400 +/- 0.274384 1
2 2 1 gaussian Sigma keV 9.40060 +/- 0.272686 1
3 3 1 gaussian norm 0.232894 +/- 0.620303E-02 1
4 4 2 powerlaw PhoIndex 1.05959 +/- 0.137782E-01 1
5 5 2 powerlaw norm 1.22152 +/- 0.688000E-01 1
6 6 3 gaussian LineE keV 73.9440 +/- 0.305278 2
7 7 3 gaussian Sigma keV 10.2517 +/- 0.535006E-01 2
8 3 3 gaussian norm 0.232894 = par 3 2
9 8 4 powerlaw PhoIndex 1.06043 +/- 0.132228E-01 2
10 5 4 powerlaw norm 1.22152 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 348.7024 using 168 PHA bins.
Reduced chi-squared = 2.179390 for 160 degrees of freedom
Null hypothesis probability = 4.567E-16
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.088) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.088) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.302 photons ( 1.5289E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.298 photons ( 1.5321E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w03_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
77.10155
=====best line=====
71.8416 0.274678
=====best sigma=====
9.39705 0.273013
=====norm=====
0.232842 0.620961E-02
=====phoindx=====
1.05961 0.137850E-01
=====pow_norm=====
1.22166 0.688167E-01
=====best line=====
73.9441 0.305454
=====best sigma=====
10.2487 0.528800E-01
=====norm=====
0.232842 par
=====phoindx=====
1.06044 0.132292E-01
=====pow_norm=====
1.22166 par
=====redu_chi=====
2.179388
=====area_flux=====
1.302
=====area_flux_f=====
1.298
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.683472 8.355528
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 3 1 640 2000 1149.4656 7.683472 0.232842 0.620961E-02 9.39705 0.273013 1.05961 0.137850E-01 1.22166 0.688167E-01 1.302 640 2000 1183.1056 8.355528 0.232842 0.620961E-02 10.2487 0.528800E-01 1.06044 0.132292E-01 1.22166 0.688167E-01 1.298 2.179388 0
=====redu_chi=====
192.2540
=====best line=====
115.240 0.289976
=====best sigma=====
19.3655 2.44660
=====norm=====
1.22361 0.102642E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.329 0.283534
=====best sigma=====
18.6877 0.538193
=====norm=====
1.22361 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
30.60221
=====area_flux=====
0.9596
=====area_flux_f=====
0.9325
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.683472 8.355528
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 3 1 1600 3200 1843.84 7.683472 1.22361 0.102642E-01 309.848 39.1456 9.50000 -1.00000 0.00000 -1.00000 0.9596 1600 3200 1813.264 8.355528 1.22361 0.102642E-01 299.0032 8.611088 9.50000 -1.00000 0.00000 -1.00000 0.9325 30.60221 1
=====redu_chi=====
112.9620
=====best line=====
71.8400 0.274384
=====best sigma=====
9.40060 0.272686
=====norm=====
0.232894 0.620303E-02
=====phoindx=====
1.05959 0.137782E-01
=====pow_norm=====
1.22152 0.688000E-01
=====best line=====
73.9440 0.305278
=====best sigma=====
10.2517 0.535006E-01
=====norm=====
0.232894 par
=====phoindx=====
1.06043 0.132228E-01
=====pow_norm=====
1.22152 par
=====redu_chi=====
2.179390
=====area_flux=====
1.302
=====area_flux_f=====
1.298
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.683472 8.355528
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 3 1 640 2000 1149.44 7.683472 0.232894 0.620303E-02 9.40060 0.272686 1.05959 0.137782E-01 1.22152 0.688000E-01 1.302 640 2000 1183.104 8.355528 0.232894 0.620303E-02 10.2517 0.535006E-01 1.06043 0.132228E-01 1.22152 0.688000E-01 1.298 2.179390 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:09:54 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.430 +/- 1.0713E-02
Net count rate (cts/s) for file 2 3.430 +/- 1.0713E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 89031.09 using 168 PHA bins.
Reduced chi-squared = 556.4443 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 4820.520 using 168 PHA bins.
Reduced chi-squared = 30.12825 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
502.490 -3 85.89 13.36 0.2050 0.8990
0.6903 87.11 12.72 0.8948
308.593 -4 81.97 10.59 0.2235 0.9567
0.8517 84.95 11.17 0.9543
241.950 -5 82.87 11.26 0.2332 0.9768
0.9431 85.50 11.86 0.9759
238.223 -6 83.00 11.25 0.2338 0.9783
0.9574 85.51 11.81 0.9783
238.206 -7 83.00 11.27 0.2342 0.9786
0.9588 85.51 11.83 0.9787
238.205 -8 83.00 11.27 0.2341 0.9785
0.9586 85.51 11.83 0.9786
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.52E-06 | 0.00 0.00 -0.23 0.66 -0.32 0.00 0.00 0.64
1.80E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
2.20E-05 | 0.00 0.06 -0.97 -0.14 0.11 0.00 0.05 -0.15
2.19E-03 | 0.02 0.82 0.01 -0.06 -0.25 0.01 -0.50 -0.06
2.54E-03 | -0.04 -0.08 0.00 0.20 0.77 -0.04 -0.57 0.19
7.77E-03 | 0.02 -0.56 -0.08 -0.14 -0.48 0.01 -0.64 -0.13
1.11E-01 | -0.89 0.01 0.00 0.00 -0.02 0.46 -0.01 0.00
1.35E-01 | 0.46 0.00 0.00 0.01 0.05 0.89 -0.01 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 83.0035 +/- 0.340449 1
2 2 1 gaussian Sigma keV 11.2663 +/- 0.628367E-01 1
3 3 1 gaussian norm 0.234130 +/- 0.834786E-02 1
4 4 2 powerlaw PhoIndex 0.978505 +/- 0.167519E-01 1
5 5 2 powerlaw norm 0.958554 +/- 0.617750E-01 1
6 6 3 gaussian LineE keV 85.5085 +/- 0.360101 2
7 7 3 gaussian Sigma keV 11.8266 +/- 0.680478E-01 2
8 3 3 gaussian norm 0.234130 = par 3 2
9 8 4 powerlaw PhoIndex 0.978626 +/- 0.161096E-01 2
10 5 4 powerlaw norm 0.958554 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 238.2046 using 168 PHA bins.
Reduced chi-squared = 1.488779 for 160 degrees of freedom
Null hypothesis probability = 5.955E-05
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 82.4659 83.5392 ( -0.537621 , 0.535759 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 84.9410 86.0737 ( -0.567566 , 0.565170 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.418 photons ( 1.7196E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.418 photons ( 1.7281E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:09:54 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.273 +/- 1.6637E-02
Net count rate (cts/s) for file 2 8.273 +/- 1.6637E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.843 +/- 1.9788E-02( 58.5% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.843 +/- 1.9788E-02( 58.5% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 450743.9 using 198 PHA bins.
Reduced chi-squared = 2372.336 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 51061.70 using 198 PHA bins.
Reduced chi-squared = 268.7458 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
30135.0 -3 126.5 19.33 0.5976 2.866
1.534 128.3 19.22 2.978
28386.6 2 126.5 19.33 0.5985 1.842
7.063 128.3 19.22 2.577
27892.3 1 126.6 19.28 0.6074 1.835
7.328 128.4 19.18 2.488
23689.4 0 127.4 18.98 0.6860 1.785
9.329 129.1 18.82 2.060
13858.5 0 128.6 19.26 1.066 1.735
11.60 129.9 19.22 2.095
12545.6 -1 125.2 19.35 1.767 1.791
7.359 126.7 19.35 2.645
12056.3 0 125.1 19.36 1.718 1.794
7.327 126.7 19.36 4.818
11796.5 0 125.1 19.36 1.685 1.793
7.525 126.7 19.36 7.966
11670.4 0 125.1 19.36 1.669 1.791
7.775 126.9 19.36 9.141
11595.7 0 125.2 19.37 1.659 1.791
7.914 127.0 19.36 9.389
11545.7 0 125.2 19.37 1.652 1.791
8.092 127.1 19.37 9.451
11510.3 0 125.2 19.37 1.648 1.793
8.198 127.2 19.37 9.494
11486.6 0 125.3 19.37 1.645 1.793
8.383 127.3 19.37 9.498
11470.2 0 125.3 19.37 1.643 1.794
8.528 127.4 19.37 9.499
11455.6 0 125.3 19.37 1.641 1.797
8.603 127.4 19.37 9.500
11446.5 0 125.3 19.37 1.640 1.800
8.683 127.4 19.37 9.500
11442.6 0 125.3 19.37 1.640 1.801
8.836 127.5 19.37 9.500
11438.1 0 125.4 19.37 1.640 1.804
8.908 127.5 19.37 9.500
11431.3 0 125.4 19.37 1.639 1.807
9.004 127.5 19.37 9.500
11428.4 0 125.4 19.37 1.639 1.809
9.122 127.5 19.37 9.500
11427.6 0 125.4 19.37 1.639 1.811
9.224 127.5 19.37 9.500
11423.4 0 125.4 19.37 1.638 1.813
9.349 127.6 19.37 9.500
11420.4 0 125.4 19.37 1.638 1.815
9.460 127.6 19.37 9.500
11418.6 0 125.4 19.37 1.637 1.817
9.580 127.6 19.37 9.500
11356.7 0 125.5 19.37 1.627 1.818
9.574 127.6 19.37 9.500
11303.0 0 125.6 19.37 1.618 1.818
9.585 127.7 19.37 9.500
11256.1 0 125.6 19.37 1.609 1.818
9.606 127.7 19.37 9.500
11215.0 0 125.7 19.37 1.601 1.817
9.638 127.8 19.37 9.500
11178.8 0 125.8 19.37 1.594 1.817
9.674 127.8 19.37 9.500
11146.7 0 125.8 19.37 1.587 1.816
9.715 127.9 19.37 9.500
11118.2 0 125.9 19.37 1.581 1.816
9.758 127.9 19.37 9.500
11070.0 0 126.0 19.37 1.570 1.814
9.851 128.0 19.37 9.500
11049.6 0 126.1 19.37 1.565 1.814
9.896 128.1 19.37 9.500
11031.3 0 126.1 19.37 1.560 1.813
9.944 128.1 19.37 9.500
11014.8 0 126.2 19.37 1.556 1.813
9.990 128.1 19.37 9.500
10999.8 0 126.3 19.37 1.552 1.812
10.04 128.2 19.37 9.500
10986.3 0 126.3 19.37 1.549 1.812
10.08 128.2 19.37 9.500
10974.1 0 126.4 19.37 1.545 1.811
10.12 128.3 19.37 9.500
10963.0 0 126.4 19.37 1.542 1.811
10.16 128.3 19.37 9.500
10952.9 0 126.5 19.37 1.539 1.810
10.19 128.3 19.37 9.500
10943.8 0 126.5 19.37 1.536 1.810
10.23 128.4 19.37 9.500
10935.4 0 126.6 19.37 1.534 1.810
10.27 128.4 19.37 9.500
10927.7 0 126.6 19.37 1.531 1.810
10.30 128.4 19.37 9.500
10920.7 0 126.7 19.37 1.529 1.809
10.33 128.5 19.37 9.500
10914.4 0 126.7 19.37 1.527 1.809
10.37 128.5 19.37 9.500
10908.4 0 126.8 19.37 1.525 1.809
10.40 128.5 19.37 9.500
10903.0 0 126.8 19.37 1.523 1.809
10.43 128.6 19.37 9.500
10898.1 0 126.9 19.37 1.522 1.809
10.45 128.6 19.37 9.500
10893.5 0 126.9 19.37 1.520 1.809
10.48 128.6 19.37 9.500
10889.3 0 126.9 19.37 1.518 1.809
10.51 128.6 19.37 9.500
10885.4 0 127.0 19.37 1.517 1.809
10.53 128.7 19.37 9.500
10881.8 0 127.0 19.37 1.516 1.809
10.56 128.7 19.37 9.500
10878.5 0 127.0 19.37 1.514 1.809
10.58 128.7 19.37 9.500
10875.4 0 127.1 19.37 1.513 1.809
10.60 128.7 19.37 9.500
10872.5 0 127.1 19.37 1.512 1.809
10.62 128.8 19.37 9.500
10869.8 0 127.1 19.37 1.511 1.809
10.65 128.8 19.37 9.500
10867.4 0 127.2 19.37 1.510 1.809
10.67 128.8 19.37 9.500
10865.1 0 127.2 19.37 1.509 1.809
10.69 128.8 19.37 9.500
10863.0 0 127.2 19.37 1.508 1.809
10.71 128.8 19.37 9.500
10861.0 0 127.2 19.37 1.508 1.809
10.72 128.8 19.37 9.500
10859.1 0 127.3 19.37 1.507 1.809
10.74 128.9 19.37 9.500
10857.5 0 127.3 19.37 1.506 1.810
10.76 128.9 19.37 9.500
10855.8 0 127.3 19.37 1.506 1.810
10.78 128.9 19.37 9.500
10854.4 0 127.3 19.37 1.505 1.810
10.80 128.9 19.37 9.500
10852.9 0 127.4 19.37 1.504 1.810
10.81 128.9 19.37 9.500
10851.7 0 127.4 19.37 1.504 1.810
10.83 128.9 19.37 9.500
10850.4 0 127.4 19.37 1.503 1.810
10.85 128.9 19.37 9.500
10849.3 0 127.4 19.37 1.503 1.810
10.87 129.0 19.37 9.500
10848.2 0 127.4 19.37 1.502 1.811
10.89 129.0 19.37 9.500
10847.2 0 127.5 19.37 1.502 1.811
10.90 129.0 19.37 9.500
10846.3 0 127.5 19.37 1.501 1.811
10.92 129.0 19.37 9.500
10845.4 0 127.5 19.37 1.501 1.811
10.93 129.0 19.37 9.500
10844.5 0 127.5 19.37 1.501 1.811
10.95 129.0 19.37 9.500
10843.8 0 127.5 19.37 1.500 1.812
10.97 129.0 19.37 9.500
10843.0 0 127.5 19.37 1.500 1.812
10.98 129.0 19.37 9.500
10842.3 0 127.6 19.37 1.500 1.812
11.00 129.0 19.37 9.500
10841.7 0 127.6 19.37 1.499 1.812
11.02 129.0 19.37 9.500
10841.0 0 127.6 19.37 1.499 1.812
11.03 129.0 19.37 9.500
10840.4 0 127.6 19.37 1.499 1.813
11.05 129.0 19.37 9.500
10839.9 0 127.6 19.37 1.499 1.813
11.06 129.1 19.37 9.500
10839.4 0 127.6 19.37 1.498 1.813
11.08 129.1 19.37 9.500
10838.9 0 127.6 19.37 1.498 1.813
11.09 129.1 19.37 9.500
10838.4 0 127.6 19.37 1.498 1.814
11.11 129.1 19.37 9.500
10838.0 0 127.7 19.37 1.498 1.814
11.12 129.1 19.37 9.500
10837.5 0 127.7 19.37 1.497 1.814
11.14 129.1 19.37 9.500
10837.1 0 127.7 19.37 1.497 1.814
11.15 129.1 19.37 9.500
10836.7 0 127.7 19.37 1.497 1.815
11.17 129.1 19.37 9.500
10836.4 0 127.7 19.37 1.497 1.815
11.18 129.1 19.37 9.500
10836.1 0 127.7 19.37 1.497 1.815
11.20 129.1 19.37 9.500
10835.7 0 127.7 19.37 1.497 1.815
11.22 129.1 19.37 9.500
10835.4 0 127.7 19.37 1.496 1.816
11.23 129.1 19.37 9.500
10835.1 0 127.7 19.37 1.496 1.816
11.25 129.1 19.37 9.500
10834.8 0 127.7 19.37 1.496 1.816
11.26 129.1 19.37 9.500
10834.5 0 127.7 19.37 1.496 1.816
11.28 129.1 19.37 9.500
10834.3 0 127.7 19.37 1.496 1.817
11.29 129.1 19.37 9.500
10834.0 0 127.8 19.37 1.496 1.817
11.31 129.1 19.37 9.500
10833.8 0 127.8 19.37 1.496 1.817
11.32 129.1 19.37 9.500
10833.6 0 127.8 19.37 1.496 1.817
11.34 129.1 19.37 9.500
10833.3 0 127.8 19.37 1.496 1.818
11.35 129.1 19.37 9.500
10833.1 0 127.8 19.37 1.495 1.818
11.37 129.1 19.37 9.500
10832.9 0 127.8 19.37 1.495 1.818
11.39 129.1 19.37 9.500
10832.8 0 127.8 19.37 1.495 1.818
11.40 129.1 19.37 9.500
10832.5 0 127.8 19.37 1.495 1.819
11.41 129.1 19.37 9.500
10832.4 0 127.8 19.37 1.495 1.819
11.43 129.1 19.37 9.500
10832.2 0 127.8 19.37 1.495 1.819
11.45 129.1 19.37 9.500
10832.0 0 127.8 19.37 1.495 1.819
11.46 129.2 19.37 9.500
10831.8 0 127.8 19.37 1.495 1.820
11.48 129.2 19.37 9.500
10831.7 0 127.8 19.37 1.495 1.820
11.49 129.2 19.37 9.500
10831.6 0 127.8 19.37 1.495 1.820
11.51 129.2 19.37 9.500
10831.4 0 127.8 19.37 1.495 1.820
11.53 129.2 19.37 9.500
10831.3 0 127.8 19.37 1.495 1.821
11.54 129.2 19.37 9.500
10831.1 0 127.8 19.37 1.495 1.821
11.55 129.2 19.37 9.500
10831.0 0 127.8 19.37 1.494 1.821
11.57 129.2 19.37 9.500
10830.9 0 127.8 19.37 1.494 1.821
11.59 129.2 19.37 9.500
10830.7 0 127.8 19.37 1.494 1.822
11.60 129.2 19.37 9.500
10830.6 0 127.8 19.37 1.494 1.822
11.62 129.2 19.37 9.500
10830.5 0 127.8 19.37 1.494 1.822
11.63 129.2 19.37 9.500
10830.4 0 127.8 19.37 1.494 1.822
11.65 129.2 19.37 9.500
10830.3 0 127.8 19.37 1.494 1.823
11.67 129.2 19.37 9.500
10830.2 0 127.9 19.37 1.494 1.823
11.68 129.2 19.37 9.500
10830.1 0 127.9 19.37 1.494 1.823
11.70 129.2 19.37 9.500
10830.0 0 127.9 19.37 1.494 1.823
11.72 129.2 19.37 9.500
10829.9 0 127.9 19.37 1.494 1.824
11.73 129.2 19.37 9.500
10829.8 0 127.9 19.37 1.494 1.824
11.75 129.2 19.37 9.500
10829.7 0 127.9 19.37 1.494 1.824
11.76 129.2 19.37 9.500
10829.6 0 127.9 19.37 1.494 1.824
11.78 129.2 19.37 9.500
10829.5 0 127.9 19.37 1.494 1.825
11.79 129.2 19.37 9.500
10829.4 0 127.9 19.37 1.494 1.825
11.81 129.2 19.37 9.500
10829.3 0 127.9 19.37 1.494 1.825
11.82 129.2 19.37 9.500
10829.2 0 127.9 19.37 1.494 1.825
11.84 129.2 19.37 9.500
10829.1 0 127.9 19.37 1.494 1.826
11.85 129.2 19.37 9.500
10829.0 0 127.9 19.37 1.494 1.826
11.87 129.2 19.37 9.500
10829.0 0 127.9 19.37 1.494 1.826
11.89 129.2 19.37 9.500
10828.9 0 127.9 19.37 1.494 1.826
11.90 129.2 19.37 9.500
10828.8 0 127.9 19.37 1.494 1.827
11.92 129.2 19.37 9.500
10828.7 0 127.9 19.37 1.494 1.827
11.94 129.2 19.37 9.500
10828.7 0 127.9 19.37 1.494 1.827
11.95 129.2 19.37 9.500
10828.6 0 127.9 19.37 1.494 1.827
11.97 129.2 19.37 9.500
10828.5 0 127.9 19.37 1.494 1.828
11.99 129.2 19.37 9.500
10828.4 0 127.9 19.37 1.494 1.828
12.00 129.2 19.37 9.500
10828.3 0 127.9 19.37 1.494 1.828
12.02 129.2 19.37 9.500
10828.3 0 127.9 19.37 1.494 1.828
12.04 129.2 19.37 9.500
10828.2 0 127.9 19.37 1.494 1.829
12.05 129.2 19.37 9.500
10828.1 0 127.9 19.37 1.494 1.829
12.07 129.2 19.37 9.500
10828.1 0 127.9 19.37 1.494 1.829
12.09 129.2 19.37 9.500
10828.0 0 127.9 19.37 1.494 1.829
12.11 129.2 19.37 9.500
10827.9 0 127.9 19.37 1.493 1.830
12.12 129.2 19.37 9.500
10827.9 0 127.9 19.37 1.493 1.830
12.14 129.2 19.37 9.500
10827.8 0 127.9 19.37 1.493 1.830
12.16 129.2 19.37 9.500
10827.8 0 127.9 19.37 1.493 1.830
12.17 129.2 19.37 9.500
10827.7 0 127.9 19.37 1.493 1.831
12.19 129.2 19.37 9.500
10827.6 0 127.9 19.37 1.493 1.831
12.20 129.2 19.37 9.500
10827.5 0 127.9 19.37 1.493 1.831
12.22 129.2 19.37 9.500
10827.5 0 127.9 19.37 1.493 1.832
12.24 129.2 19.37 9.500
10827.4 0 127.9 19.37 1.493 1.832
12.25 129.2 19.37 9.500
10827.3 0 127.9 19.37 1.493 1.832
12.27 129.2 19.37 9.500
10827.3 0 127.9 19.37 1.493 1.832
12.28 129.2 19.37 9.500
10827.2 0 127.9 19.37 1.493 1.833
12.30 129.2 19.37 9.500
10827.1 0 127.9 19.37 1.493 1.833
12.32 129.2 19.37 9.500
10827.1 0 127.9 19.37 1.493 1.833
12.33 129.2 19.37 9.500
10827.0 0 127.9 19.37 1.493 1.833
12.35 129.2 19.37 9.500
10826.9 0 127.9 19.37 1.493 1.834
12.37 129.2 19.37 9.500
10826.9 0 127.9 19.37 1.493 1.834
12.38 129.2 19.37 9.500
10826.9 0 127.9 19.37 1.493 1.834
12.40 129.2 19.37 9.500
10826.8 0 127.9 19.37 1.493 1.834
12.42 129.2 19.37 9.500
10826.8 0 127.9 19.37 1.493 1.835
12.43 129.2 19.37 9.500
10826.7 0 127.9 19.37 1.493 1.835
12.45 129.2 19.37 9.500
10826.6 0 127.9 19.37 1.493 1.835
12.47 129.2 19.37 9.500
10826.6 0 127.9 19.37 1.493 1.835
12.49 129.2 19.37 9.500
10826.5 0 127.9 19.37 1.493 1.836
12.50 129.2 19.37 9.500
10826.4 0 127.9 19.37 1.493 1.836
12.52 129.2 19.37 9.500
10826.4 0 127.9 19.37 1.493 1.836
12.54 129.2 19.37 9.500
10826.3 0 127.9 19.37 1.493 1.836
12.55 129.2 19.37 9.500
10826.3 0 127.9 19.37 1.493 1.837
12.57 129.2 19.37 9.500
10826.2 0 127.9 19.37 1.493 1.837
12.59 129.2 19.37 9.500
10826.2 0 127.9 19.37 1.493 1.837
12.61 129.2 19.37 9.500
10826.1 0 127.9 19.37 1.493 1.837
12.62 129.2 19.37 9.500
10826.0 0 127.9 19.37 1.493 1.838
12.64 129.2 19.37 9.500
10826.0 0 127.9 19.37 1.493 1.838
12.66 129.2 19.37 9.500
10825.9 0 127.9 19.37 1.493 1.838
12.68 129.2 19.37 9.500
10825.8 0 127.9 19.37 1.493 1.839
12.69 129.2 19.37 9.500
10825.8 0 127.9 19.37 1.493 1.839
12.71 129.2 19.37 9.500
10825.7 0 127.9 19.37 1.493 1.839
12.73 129.2 19.37 9.500
10825.7 0 127.9 19.37 1.493 1.839
12.75 129.2 19.37 9.500
10825.6 0 127.9 19.37 1.493 1.839
12.77 129.2 19.37 9.500
10825.6 0 127.9 19.37 1.493 1.840
12.78 129.2 19.37 9.500
10825.6 0 127.9 19.37 1.493 1.840
12.80 129.2 19.37 9.500
10825.5 0 127.9 19.37 1.493 1.840
12.82 129.2 19.37 9.500
10825.4 0 127.9 19.37 1.493 1.841
12.83 129.2 19.37 9.500
10825.4 0 127.9 19.37 1.493 1.841
12.85 129.2 19.37 9.500
10825.3 0 127.9 19.37 1.493 1.841
12.87 129.2 19.37 9.500
10825.3 0 127.9 19.37 1.493 1.841
12.89 129.2 19.37 9.500
10825.2 0 127.9 19.37 1.493 1.842
12.90 129.2 19.37 9.500
10825.2 0 127.9 19.37 1.493 1.842
12.92 129.2 19.37 9.500
10825.1 0 127.9 19.37 1.493 1.842
12.94 129.2 19.37 9.500
10825.0 0 127.9 19.37 1.493 1.842
12.96 129.2 19.37 9.500
10825.0 0 127.9 19.37 1.493 1.843
12.97 129.2 19.37 9.500
10824.9 0 127.9 19.37 1.493 1.843
12.99 129.2 19.37 9.500
10824.9 0 127.9 19.37 1.493 1.843
13.01 129.2 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
3.97E-05 | -0.01 0.00 -0.82 0.57 -0.01 0.00 0.00
7.78E-05 | 0.00 0.00 -0.57 -0.82 0.01 0.00 0.00
3.36E-02 | -1.00 -0.02 0.00 0.00 0.00 -0.10 -0.01
2.93E-02 | -0.10 0.00 -0.01 0.00 0.00 0.99 0.03
4.48E+00 | 0.00 0.40 0.00 0.00 -0.04 0.03 -0.92
8.66E+00 | 0.02 -0.92 0.00 0.00 -0.01 0.02 -0.40
3.24E+02 | 0.00 0.00 0.00 0.02 1.00 0.00 -0.04
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 127.917 +/- 0.209392 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.82726 1
3 3 1 gaussian norm 1.49289 +/- 0.114230E-01 1
4 4 2 powerlaw PhoIndex 1.84314 +/- 0.279697 1
5 5 2 powerlaw norm 13.0086 +/- 17.9908 1
6 6 3 gaussian LineE keV 129.189 +/- 0.190910 2
7 7 3 gaussian Sigma keV 19.3655 +/- 2.38063 2
8 3 3 gaussian norm 1.49289 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 13.0086 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 10824.88 using 198 PHA bins.
Reduced chi-squared = 56.97305 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 ( 54.949) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 54.949) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.521 photons ( 3.2063E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.394 photons ( 2.9449E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:09:56 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.430 +/- 1.0713E-02
Net count rate (cts/s) for file 2 3.430 +/- 1.0713E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 106519.6 using 168 PHA bins.
Reduced chi-squared = 665.7472 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 8649.648 using 168 PHA bins.
Reduced chi-squared = 54.06030 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1425.32 -3 87.40 11.92 0.2136 0.9784
0.8383 88.37 11.20 0.9704
266.118 -4 82.51 12.62 0.2392 0.9911
0.9920 85.55 12.21 0.9900
241.977 -5 83.26 10.70 0.2281 0.9744
0.9479 85.53 11.58 0.9750
238.338 -6 82.95 11.37 0.2355 0.9800
0.9628 85.52 11.89 0.9800
238.212 -7 83.02 11.24 0.2337 0.9781
0.9575 85.51 11.81 0.9783
238.205 -8 83.00 11.27 0.2342 0.9786
0.9589 85.51 11.83 0.9787
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.52E-06 | 0.00 0.00 -0.23 0.66 -0.33 0.00 0.00 0.63
1.80E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
2.19E-05 | 0.00 0.06 -0.97 -0.14 0.11 0.00 0.05 -0.15
2.18E-03 | 0.02 0.82 0.01 -0.06 -0.25 0.01 -0.50 -0.06
2.53E-03 | -0.04 -0.08 0.00 0.20 0.77 -0.04 -0.58 0.19
7.70E-03 | 0.02 -0.56 -0.08 -0.14 -0.48 0.01 -0.64 -0.13
1.11E-01 | -0.89 0.01 0.00 0.00 -0.02 0.46 -0.01 0.00
1.35E-01 | 0.45 0.00 0.00 0.01 0.05 0.89 -0.01 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 82.9998 +/- 0.339762 1
2 2 1 gaussian Sigma keV 11.2735 +/- 0.625299E-01 1
3 3 1 gaussian norm 0.234239 +/- 0.831565E-02 1
4 4 2 powerlaw PhoIndex 0.978616 +/- 0.167151E-01 1
5 5 2 powerlaw norm 0.958851 +/- 0.615760E-01 1
6 6 3 gaussian LineE keV 85.5092 +/- 0.359876 2
7 7 3 gaussian Sigma keV 11.8313 +/- 0.678042E-01 2
8 3 3 gaussian norm 0.234239 = par 3 2
9 8 4 powerlaw PhoIndex 0.978720 +/- 0.160746E-01 2
10 5 4 powerlaw norm 0.958851 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 238.2055 using 168 PHA bins.
Reduced chi-squared = 1.488784 for 160 degrees of freedom
Null hypothesis probability = 5.954E-05
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 82.4659 83.5395 ( -0.533867 , 0.539726 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 84.9405 86.0732 ( -0.568756 , 0.563942 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.418 photons ( 1.7195E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.418 photons ( 1.7281E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w10_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
30.12825
=====best line=====
83.0035 0.340449
=====best sigma=====
11.2663 0.628367E-01
=====norm=====
0.234130 0.834786E-02
=====phoindx=====
0.978505 0.167519E-01
=====pow_norm=====
0.958554 0.617750E-01
=====best line=====
85.5085 0.360101
=====best sigma=====
11.8266 0.680478E-01
=====norm=====
0.234130 par
=====phoindx=====
0.978626 0.161096E-01
=====pow_norm=====
0.958554 par
=====redu_chi=====
1.488779
=====slow error=====
-0.537621 0.535759
=====fast error=====
-0.567566 0.565170
=====area_flux=====
1.418
=====area_flux_f=====
1.418
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
8.58704 9.061888
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 4 1 640 2000 1328.056 8.58704 0.234130 0.834786E-02 11.2663 0.628367E-01 0.978505 0.167519E-01 0.958554 0.617750E-01 1.418 640 2000 1368.136 9.061888 0.234130 0.834786E-02 11.8266 0.680478E-01 0.978626 0.161096E-01 0.958554 0.617750E-01 1.418 1.488779 0
=====redu_chi=====
268.7458
=====best line=====
127.917 0.209392
=====best sigma=====
19.3655 2.82726
=====norm=====
1.49289 0.114230E-01
=====phoindx=====
1.84314 0.279697
=====pow_norm=====
13.0086 17.9908
=====best line=====
129.189 0.190910
=====best sigma=====
19.3655 2.38063
=====norm=====
1.49289 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
13.0086 par
=====redu_chi=====
56.97305
=====area_flux=====
1.521
=====area_flux_f=====
1.394
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
8.58704 9.061888
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 4 1 1600 3200 2046.672 8.58704 1.49289 0.114230E-01 309.848 45.23616 1.84314 0.279697 13.0086 17.9908 1.521 1600 3200 2067.024 9.061888 1.49289 0.114230E-01 309.848 38.09008 9.50000 -1.00000 13.0086 17.9908 1.394 56.97305 1
=====redu_chi=====
54.06030
=====best line=====
82.9998 0.339762
=====best sigma=====
11.2735 0.625299E-01
=====norm=====
0.234239 0.831565E-02
=====phoindx=====
0.978616 0.167151E-01
=====pow_norm=====
0.958851 0.615760E-01
=====best line=====
85.5092 0.359876
=====best sigma=====
11.8313 0.678042E-01
=====norm=====
0.234239 par
=====phoindx=====
0.978720 0.160746E-01
=====pow_norm=====
0.958851 par
=====redu_chi=====
1.488784
=====slow error=====
-0.533867 0.539726
=====fast error=====
-0.568756 0.563942
=====area_flux=====
1.418
=====area_flux_f=====
1.418
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
8.588744 9.061584
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 4 1 640 2000 1327.9968 8.588744 0.234239 0.831565E-02 11.2735 0.625299E-01 0.978616 0.167151E-01 0.958851 0.615760E-01 1.418 640 2000 1368.1472 9.061584 0.234239 0.831565E-02 11.8313 0.678042E-01 0.978720 0.160746E-01 0.958851 0.615760E-01 1.418 1.488784 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:09:56 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to 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 +/- 1.0859E-02
Net count rate (cts/s) for file 2 3.525 +/- 1.0859E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 136494.0 using 168 PHA bins.
Reduced chi-squared = 853.0876 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11824.50 using 168 PHA bins.
Reduced chi-squared = 73.90309 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
11159.0 -3 81.82 16.64 0.2469 1.165
1.096 81.70 16.65 1.151
1730.52 -4 70.98 8.567 0.1787 0.8365
0.5796 70.36 8.592 0.8554
1088.35 -2 73.75 12.88 0.2264 0.9044
0.6613 73.54 16.61 0.9074
788.825 0 73.26 11.12 0.2354 0.9056
0.6609 71.84 9.289 0.9086
779.555 -1 73.54 9.996 0.2304 0.9112
0.6793 73.33 13.81 0.9133
601.366 -2 74.06 9.813 0.2130 0.9565
0.8164 73.50 9.618 0.9569
514.585 -2 74.27 9.490 0.2193 0.9938
0.9590 74.40 10.84 0.9945
448.050 -2 74.44 9.392 0.2152 1.023
1.094 74.55 9.948 1.023
413.616 -2 74.57 9.423 0.2165 1.046
1.213 74.78 9.814 1.047
393.460 -2 74.68 9.408 0.2165 1.064
1.315 74.91 9.793 1.065
381.357 -2 74.76 9.410 0.2167 1.078
1.401 75.00 9.781 1.080
380.354 -3 74.97 9.417 0.2177 1.118
1.636 75.23 9.777 1.119
363.702 -4 75.04 9.451 0.2187 1.132
1.755 75.31 9.787 1.133
362.651 -5 75.05 9.455 0.2187 1.132
1.763 75.31 9.787 1.134
362.649 -6 75.05 9.455 0.2187 1.132
1.763 75.31 9.787 1.134
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.71E-06 | 0.00 0.00 -0.25 0.71 -0.18 0.00 0.00 0.63
1.88E-06 | 0.00 0.00 -0.02 -0.67 -0.01 0.00 0.00 0.75
1.87E-05 | 0.00 0.01 -0.97 -0.17 0.05 0.00 0.01 -0.17
8.18E-03 | 0.08 0.02 -0.01 -0.14 -0.97 0.08 0.02 -0.13
5.61E-02 | -0.17 -0.74 0.00 0.00 0.00 0.13 0.64 0.00
1.27E-01 | -0.32 0.55 0.01 0.00 -0.04 -0.42 0.64 0.00
7.98E-02 | 0.92 0.02 0.00 0.01 0.06 -0.22 0.31 0.01
8.48E-02 | -0.10 -0.39 -0.01 -0.01 -0.09 -0.86 -0.29 -0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.0488 +/- 0.288968 1
2 2 1 gaussian Sigma keV 9.45527 +/- 0.286889 1
3 3 1 gaussian norm 0.218746 +/- 0.597816E-02 1
4 4 2 powerlaw PhoIndex 1.13167 +/- 0.133857E-01 1
5 5 2 powerlaw norm 1.76321 +/- 0.947789E-01 1
6 6 3 gaussian LineE keV 75.3141 +/- 0.301993 2
7 7 3 gaussian Sigma keV 9.78699 +/- 0.299872 2
8 3 3 gaussian norm 0.218746 = par 3 2
9 8 4 powerlaw PhoIndex 1.13381 +/- 0.128437E-01 2
10 5 4 powerlaw norm 1.76321 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 362.6492 using 168 PHA bins.
Reduced chi-squared = 2.266558 for 160 degrees of freedom
Null hypothesis probability = 9.193E-18
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.172) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.172) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.355 photons ( 1.5935E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.345 photons ( 1.5821E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:09:56 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.234 +/- 1.6598E-02
Net count rate (cts/s) for file 2 8.234 +/- 1.6598E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.709 +/- 1.9835E-02( 57.2% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.709 +/- 1.9835E-02( 57.2% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 2336670. using 198 PHA bins.
Reduced chi-squared = 12298.26 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 43701.89 using 198 PHA bins.
Reduced chi-squared = 230.0099 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
21331.4 -3 122.7 17.96 0.4926 2.792
0.2617 121.8 17.99 2.743
9329.15 -3 111.6 19.07 1.385 6.541
0.1133 104.7 19.03 6.980
8632.97 -1 111.6 19.35 1.684 8.557
5.3022E-02 107.7 19.29 8.564
8093.86 0 112.4 19.36 1.622 9.183
2.1986E-02 108.7 19.36 9.315
7750.58 0 113.3 19.37 1.575 9.439
4.3310E-03 109.6 19.36 9.432
7526.53 0 114.0 19.37 1.540 9.499
3.3544E-05 110.4 19.36 9.495
7383.73 0 114.7 19.37 1.512 9.500
1.6553E-05 111.0 19.37 9.499
7298.60 0 115.3 19.37 1.490 9.500
7.7046E-06 111.5 19.37 9.499
7250.86 0 115.8 19.37 1.472 9.500
3.1720E-06 111.9 19.37 9.500
7227.45 0 116.1 19.37 1.458 9.500
8.7874E-07 112.2 19.37 9.500
7216.68 0 116.4 19.37 1.447 9.500
2.9761E-07 112.5 19.37 9.500
7213.20 0 116.7 19.37 1.438 9.500
4.1389E-09 112.7 19.37 9.500
7132.58 0 116.9 19.37 1.423 9.500
2.0970E-11 112.6 19.23 9.500
7126.83 0 117.0 19.37 1.418 9.500
8.6261E-12 112.7 19.22 9.500
7119.72 0 117.1 19.37 1.414 9.500
2.4551E-12 112.8 19.19 9.500
7112.84 0 117.1 19.37 1.411 9.500
9.1400E-13 112.9 19.16 9.500
7108.26 0 117.2 19.37 1.408 9.500
1.4546E-13 112.9 19.14 9.500
Fit parameter 5 has pegged
7005.32 0 117.2 19.37 1.396 9.500
0.000 112.7 18.44 9.500
Fit parameter 5 has pegged
6997.65 0 117.1 19.37 1.389 9.500
0.000 112.8 18.49 9.500
Fit parameter 5 has pegged
6994.27 0 117.2 19.37 1.385 9.500
0.000 112.9 18.47 9.500
Fit parameter 5 has pegged
6991.92 0 117.2 19.37 1.383 9.500
0.000 113.0 18.45 9.500
Fit parameter 5 has pegged
6989.79 0 117.2 19.37 1.380 9.500
0.000 113.0 18.43 9.500
Fit parameter 5 has pegged
6988.43 0 117.2 19.37 1.379 9.500
0.000 113.1 18.41 9.500
Fit parameter 5 has pegged
6987.54 0 117.2 19.37 1.378 9.500
0.000 113.1 18.40 9.500
Fit parameter 5 has pegged
6986.30 0 117.2 19.37 1.377 9.500
0.000 113.2 18.38 9.500
Fit parameter 5 has pegged
6985.58 0 117.2 19.37 1.376 9.500
0.000 113.2 18.37 9.500
Fit parameter 5 has pegged
6984.73 0 117.3 19.37 1.375 9.500
0.000 113.2 18.36 9.500
Fit parameter 5 has pegged
6984.34 0 117.3 19.37 1.374 9.500
0.000 113.2 18.36 9.500
Fit parameter 5 has pegged
6983.84 0 117.3 19.37 1.374 9.500
0.000 113.3 18.35 9.500
Fit parameter 5 has pegged
6983.50 0 117.3 19.37 1.373 9.500
0.000 113.3 18.34 9.500
Fit parameter 5 has pegged
6983.13 0 117.3 19.37 1.373 9.500
0.000 113.3 18.34 9.500
Fit parameter 5 has pegged
6983.09 0 117.3 19.37 1.373 9.500
0.000 113.3 18.33 9.500
Fit parameter 5 has pegged
6982.68 0 117.3 19.37 1.372 9.500
0.000 113.3 18.33 9.500
Fit parameter 5 has pegged
6982.49 0 117.3 19.37 1.372 9.500
0.000 113.3 18.33 9.500
Fit parameter 5 has pegged
6982.46 0 117.3 19.37 1.372 9.500
0.000 113.3 18.33 9.500
Fit parameter 5 has pegged
6982.27 0 117.3 19.37 1.372 9.500
0.000 113.3 18.32 9.500
Fit parameter 5 has pegged
6982.06 0 117.3 19.37 1.372 9.500
0.000 113.3 18.32 9.500
Fit parameter 5 has pegged
6981.76 0 117.3 19.37 1.371 9.500
0.000 113.3 18.32 9.500
Fit parameter 5 has pegged
6980.71 0 117.4 19.37 1.371 9.500
0.000 113.3 18.32 9.500
Fit parameter 5 has pegged
6979.83 0 117.4 19.37 1.370 9.500
0.000 113.3 18.32 9.500
Fit parameter 5 has pegged
6978.99 0 117.4 19.37 1.370 9.500
0.000 113.3 18.32 9.500
Fit parameter 5 has pegged
6978.21 0 117.4 19.37 1.369 9.500
0.000 113.3 18.32 9.500
Fit parameter 5 has pegged
6977.53 0 117.5 19.37 1.368 9.500
0.000 113.3 18.32 9.500
Fit parameter 5 has pegged
6976.96 0 117.5 19.37 1.368 9.500
0.000 113.4 18.32 9.500
Fit parameter 5 has pegged
6976.46 0 117.5 19.37 1.367 9.500
0.000 113.4 18.32 9.500
Fit parameter 5 has pegged
6975.98 0 117.5 19.37 1.367 9.500
0.000 113.4 18.32 9.500
Fit parameter 5 has pegged
6975.55 0 117.6 19.37 1.367 9.500
0.000 113.4 18.31 9.500
Fit parameter 5 has pegged
6975.13 0 117.6 19.37 1.366 9.500
0.000 113.4 18.31 9.500
Fit parameter 5 has pegged
6974.79 0 117.6 19.37 1.366 9.500
0.000 113.4 18.31 9.500
Fit parameter 5 has pegged
6974.46 0 117.6 19.37 1.365 9.500
0.000 113.4 18.31 9.500
Fit parameter 5 has pegged
6974.19 0 117.6 19.37 1.365 9.500
0.000 113.4 18.31 9.500
Fit parameter 5 has pegged
6973.91 0 117.6 19.37 1.365 9.500
0.000 113.4 18.31 9.500
Fit parameter 5 has pegged
6973.67 0 117.6 19.37 1.364 9.500
0.000 113.4 18.31 9.500
Fit parameter 5 has pegged
6973.44 0 117.7 19.37 1.364 9.500
0.000 113.4 18.31 9.500
Fit parameter 5 has pegged
6973.22 0 117.7 19.37 1.364 9.500
0.000 113.4 18.30 9.500
Fit parameter 5 has pegged
6973.04 0 117.7 19.37 1.363 9.500
0.000 113.4 18.30 9.500
Fit parameter 5 has pegged
6972.86 0 117.7 19.37 1.363 9.500
0.000 113.4 18.30 9.500
Fit parameter 5 has pegged
6972.70 0 117.7 19.37 1.363 9.500
0.000 113.4 18.30 9.500
Fit parameter 5 has pegged
6972.55 0 117.7 19.37 1.363 9.500
0.000 113.4 18.30 9.500
Fit parameter 5 has pegged
6972.42 0 117.7 19.37 1.362 9.500
0.000 113.4 18.30 9.500
Fit parameter 5 has pegged
6972.30 0 117.7 19.37 1.362 9.500
0.000 113.4 18.30 9.500
Fit parameter 5 has pegged
6972.17 0 117.7 19.37 1.362 9.500
0.000 113.4 18.29 9.500
Fit parameter 5 has pegged
6972.06 0 117.7 19.37 1.362 9.500
0.000 113.4 18.29 9.500
Fit parameter 5 has pegged
6971.96 0 117.7 19.37 1.361 9.500
0.000 113.4 18.29 9.500
Fit parameter 5 has pegged
6971.87 0 117.8 19.37 1.361 9.500
0.000 113.4 18.29 9.500
Fit parameter 5 has pegged
6971.77 0 117.8 19.37 1.361 9.500
0.000 113.4 18.29 9.500
Fit parameter 5 has pegged
6971.67 0 117.8 19.37 1.361 9.500
0.000 113.4 18.29 9.500
Fit parameter 5 has pegged
6971.59 0 117.8 19.37 1.360 9.500
0.000 113.4 18.29 9.500
Fit parameter 5 has pegged
6971.52 0 117.8 19.37 1.360 9.500
0.000 113.4 18.28 9.500
Fit parameter 5 has pegged
6971.46 0 117.8 19.37 1.360 9.500
0.000 113.4 18.28 9.500
Fit parameter 5 has pegged
6971.37 0 117.8 19.37 1.360 9.500
0.000 113.4 18.28 9.500
Fit parameter 5 has pegged
6971.31 0 117.8 19.37 1.360 9.500
0.000 113.5 18.28 9.500
Fit parameter 5 has pegged
6971.26 0 117.8 19.37 1.360 9.500
0.000 113.5 18.28 9.500
Fit parameter 5 has pegged
6971.22 0 117.8 19.37 1.359 9.500
0.000 113.5 18.28 9.500
Fit parameter 5 has pegged
6971.15 0 117.8 19.37 1.359 9.500
0.000 113.5 18.28 9.500
Fit parameter 5 has pegged
6971.09 0 117.8 19.37 1.359 9.500
0.000 113.5 18.27 9.500
Fit parameter 5 has pegged
6971.06 0 117.8 19.37 1.359 9.500
0.000 113.5 18.27 9.500
Fit parameter 5 has pegged
6971.00 0 117.8 19.37 1.359 9.500
0.000 113.5 18.27 9.500
Fit parameter 5 has pegged
6970.96 0 117.8 19.37 1.359 9.500
0.000 113.5 18.27 9.500
Fit parameter 5 has pegged
6970.91 0 117.8 19.37 1.359 9.500
0.000 113.5 18.27 9.500
Fit parameter 5 has pegged
6970.87 0 117.8 19.37 1.358 9.500
0.000 113.5 18.27 9.500
Fit parameter 5 has pegged
6970.84 0 117.8 19.37 1.358 9.500
0.000 113.5 18.27 9.500
Fit parameter 5 has pegged
6970.82 0 117.8 19.37 1.358 9.500
0.000 113.5 18.27 9.500
Fit parameter 5 has pegged
6970.79 0 117.8 19.37 1.358 9.500
0.000 113.5 18.26 9.500
Fit parameter 5 has pegged
6970.71 0 117.8 19.37 1.358 9.500
0.000 113.5 18.26 9.500
Fit parameter 5 has pegged
6970.70 0 117.8 19.37 1.358 9.500
0.000 113.5 18.26 9.500
Fit parameter 5 has pegged
6970.66 0 117.8 19.37 1.358 9.500
0.000 113.5 18.26 9.500
Fit parameter 5 has pegged
6970.63 0 117.8 19.37 1.358 9.500
0.000 113.5 18.26 9.500
Fit parameter 5 has pegged
6970.62 0 117.8 19.37 1.358 9.500
0.000 113.5 18.26 9.500
6970.62 4 117.8 19.37 1.358 9.500
0.000 113.5 18.26 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.78E-05 | -0.01 0.00 -1.00 -0.01 0.01
1.91E-02 | 0.05 0.00 0.01 -0.76 -0.65
3.45E-02 | -0.99 -0.07 0.01 0.05 -0.14
1.06E-01 | 0.14 0.06 -0.01 0.65 -0.75
4.84E+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 117.836 +/- 0.249697 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.19066 1
3 3 1 gaussian norm 1.35758 +/- 0.984131E-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 113.508 +/- 0.247178 2
7 7 3 gaussian Sigma keV 18.2590 +/- 0.269645 2
8 3 3 gaussian norm 1.35758 = par 3 2
9 8 4 powerlaw PhoIndex 9.50007 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 6970.622 using 198 PHA bins.
Reduced chi-squared = 36.68748 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 ( 35.384) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 35.384) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.115 photons ( 2.2152E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.046 photons ( 2.0221E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:09:57 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to 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 +/- 1.0859E-02
Net count rate (cts/s) for file 2 3.525 +/- 1.0859E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 170690.4 using 168 PHA bins.
Reduced chi-squared = 1066.815 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 17354.30 using 168 PHA bins.
Reduced chi-squared = 108.4644 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2680.66 -2 85.10 13.55 0.1297 0.9161
0.7131 84.95 13.44 0.9106
2354.37 -3 62.87 16.94 0.2409 1.043
1.061 62.96 16.66 1.039
1326.10 -2 78.64 18.04 0.2890 1.065
1.213 77.68 17.80 1.065
1075.43 -2 74.42 4.486 0.1249 1.040
1.282 74.29 5.760 1.042
475.294 -3 74.47 7.777 0.1706 1.090
1.506 75.28 8.911 1.091
377.126 -4 74.73 9.865 0.2186 1.127
1.705 75.31 10.32 1.128
364.486 -5 75.17 9.275 0.2157 1.133
1.770 75.35 9.941 1.134
362.702 -6 75.02 9.503 0.2191 1.131
1.762 75.31 9.782 1.134
362.654 -7 75.06 9.441 0.2186 1.132
1.764 75.32 9.783 1.134
362.650 -8 75.05 9.459 0.2188 1.132
1.763 75.31 9.789 1.134
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.71E-06 | 0.00 0.00 -0.25 0.72 -0.18 0.00 0.00 0.63
1.87E-06 | 0.00 0.00 -0.02 -0.66 -0.01 0.00 0.00 0.75
1.86E-05 | 0.00 0.01 -0.97 -0.17 0.05 0.00 0.01 -0.17
8.18E-03 | 0.08 0.02 -0.01 -0.14 -0.97 0.08 0.02 -0.13
5.60E-02 | -0.17 -0.74 0.00 0.00 0.00 0.13 0.64 0.00
1.27E-01 | -0.32 0.55 0.01 0.00 -0.04 -0.43 0.64 0.00
7.96E-02 | 0.93 0.02 0.00 0.01 0.06 -0.21 0.31 0.01
8.48E-02 | -0.09 -0.39 -0.01 -0.01 -0.09 -0.87 -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 75.0461 +/- 0.288561 1
2 2 1 gaussian Sigma keV 9.45949 +/- 0.286457 1
3 3 1 gaussian norm 0.218802 +/- 0.597142E-02 1
4 4 2 powerlaw PhoIndex 1.13166 +/- 0.133808E-01 1
5 5 2 powerlaw norm 1.76308 +/- 0.947727E-01 1
6 6 3 gaussian LineE keV 75.3137 +/- 0.302018 2
7 7 3 gaussian Sigma keV 9.78896 +/- 0.299803 2
8 3 3 gaussian norm 0.218802 = par 3 2
9 8 4 powerlaw PhoIndex 1.13381 +/- 0.128390E-01 2
10 5 4 powerlaw norm 1.76308 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 362.6499 using 168 PHA bins.
Reduced chi-squared = 2.266562 for 160 degrees of freedom
Null hypothesis probability = 9.192E-18
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.172) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.172) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.355 photons ( 1.5935E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.345 photons ( 1.5821E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w11_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
73.90309
=====best line=====
75.0488 0.288968
=====best sigma=====
9.45527 0.286889
=====norm=====
0.218746 0.597816E-02
=====phoindx=====
1.13167 0.133857E-01
=====pow_norm=====
1.76321 0.947789E-01
=====best line=====
75.3141 0.301993
=====best sigma=====
9.78699 0.299872
=====norm=====
0.218746 par
=====phoindx=====
1.13381 0.128437E-01
=====pow_norm=====
1.76321 par
=====redu_chi=====
2.266558
=====area_flux=====
1.355
=====area_flux_f=====
1.345
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
8.588744 9.061584
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 5 1 640 2000 1200.7808 8.588744 0.218746 0.597816E-02 9.45527 0.286889 1.13167 0.133857E-01 1.76321 0.947789E-01 1.355 640 2000 1205.0256 9.061584 0.218746 0.597816E-02 9.78699 0.299872 1.13381 0.128437E-01 1.76321 0.947789E-01 1.345 2.266558 0
=====redu_chi=====
230.0099
=====best line=====
117.836 0.249697
=====best sigma=====
19.3655 2.19066
=====norm=====
1.35758 0.984131E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.508 0.247178
=====best sigma=====
18.2590 0.269645
=====norm=====
1.35758 par
=====phoindx=====
9.50007 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
36.68748
=====area_flux=====
1.115
=====area_flux_f=====
1.046
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
8.588744 9.061584
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 5 1 1600 3200 1885.376 8.588744 1.35758 0.984131E-02 309.848 35.05056 9.50000 -1.00000 0.00000 -1.00000 1.115 1600 3200 1816.128 9.061584 1.35758 0.984131E-02 292.144 4.31432 9.50007 -1.00000 0.00000 -1.00000 1.046 36.68748 1
=====redu_chi=====
108.4644
=====best line=====
75.0461 0.288561
=====best sigma=====
9.45949 0.286457
=====norm=====
0.218802 0.597142E-02
=====phoindx=====
1.13166 0.133808E-01
=====pow_norm=====
1.76308 0.947727E-01
=====best line=====
75.3137 0.302018
=====best sigma=====
9.78896 0.299803
=====norm=====
0.218802 par
=====phoindx=====
1.13381 0.128390E-01
=====pow_norm=====
1.76308 par
=====redu_chi=====
2.266562
=====area_flux=====
1.355
=====area_flux_f=====
1.345
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
8.588744 9.061584
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 5 1 640 2000 1200.7376 8.588744 0.218802 0.597142E-02 9.45949 0.286457 1.13166 0.133808E-01 1.76308 0.947727E-01 1.355 640 2000 1205.0192 9.061584 0.218802 0.597142E-02 9.78896 0.299803 1.13381 0.128390E-01 1.76308 0.947727E-01 1.345 2.266562 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:09:57 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.366 +/- 1.0612E-02
Net count rate (cts/s) for file 2 3.366 +/- 1.0612E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 118872.5 using 168 PHA bins.
Reduced chi-squared = 742.9534 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 7474.490 using 168 PHA bins.
Reduced chi-squared = 46.71556 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1310.75 -3 83.25 16.29 0.2588 0.9576
0.7209 83.80 15.73 0.9507
445.909 -3 75.59 8.925 0.1655 0.8437
0.5160 77.91 9.071 0.8466
443.279 -4 77.02 9.731 0.2017 0.9171
0.6703 79.24 12.54 0.9138
285.577 -5 77.08 9.335 0.1956 0.9234
0.7238 79.54 9.815 0.9223
283.554 0 77.05 9.397 0.1974 0.9231
0.7242 79.44 9.911 0.9224
282.890 0 77.03 9.439 0.1987 0.9230
0.7241 79.38 9.973 0.9225
282.357 -1 77.00 9.574 0.2025 0.9232
0.7230 79.31 10.29 0.9230
281.968 -2 77.00 9.603 0.2036 0.9234
0.7227 79.30 10.15 0.9232
281.962 -3 77.01 9.604 0.2037 0.9235
0.7230 79.30 10.18 0.9233
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.44E-06 | 0.00 0.00 -0.23 0.63 -0.41 0.00 0.00 0.61
1.85E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.83E-05 | 0.00 0.01 -0.97 -0.14 0.11 0.00 0.04 -0.14
1.67E-03 | 0.03 0.01 -0.01 -0.31 -0.90 0.03 0.10 -0.29
4.07E-03 | 0.00 -0.08 0.04 0.03 0.08 0.01 0.99 0.04
8.78E-02 | 0.77 0.63 0.01 0.01 0.03 -0.09 0.05 0.01
1.17E-01 | -0.45 0.44 0.01 -0.01 -0.03 -0.78 0.05 -0.01
9.95E-02 | -0.46 0.63 0.01 0.01 0.01 0.62 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 77.0084 +/- 0.310012 1
2 2 1 gaussian Sigma keV 9.60373 +/- 0.312427 1
3 3 1 gaussian norm 0.203731 +/- 0.606748E-02 1
4 4 2 powerlaw PhoIndex 0.923549 +/- 0.136374E-01 1
5 5 2 powerlaw norm 0.723013 +/- 0.394733E-01 1
6 6 3 gaussian LineE keV 79.2981 +/- 0.331818 2
7 7 3 gaussian Sigma keV 10.1754 +/- 0.681938E-01 2
8 3 3 gaussian norm 0.203731 = par 3 2
9 8 4 powerlaw PhoIndex 0.923289 +/- 0.130989E-01 2
10 5 4 powerlaw norm 0.723013 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 281.9624 using 168 PHA bins.
Reduced chi-squared = 1.762265 for 160 degrees of freedom
Null hypothesis probability = 8.982E-09
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 76.5161 77.5002 ( -0.492294 , 0.491783 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 78.7708 79.8248 ( -0.527367 , 0.526672 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.332 photons ( 1.6014E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.334 photons ( 1.6104E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:09:58 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.922 +/- 1.6280E-02
Net count rate (cts/s) for file 2 7.922 +/- 1.6280E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.556 +/- 1.9433E-02( 57.5% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.556 +/- 1.9433E-02( 57.5% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 1353549. using 198 PHA bins.
Reduced chi-squared = 7123.940 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 46277.27 using 198 PHA bins.
Reduced chi-squared = 243.5646 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
23708.0 -3 125.9 18.68 0.5219 2.978
0.5003 122.2 18.69 2.929
13067.3 -2 111.8 19.20 1.784 7.252
7.9130E-03 109.5 19.30 8.497
11957.0 0 112.8 19.30 1.723 9.253
1.8378E-03 111.2 19.34 9.369
11135.8 0 113.8 19.35 1.680 9.437
5.3211E-06 112.8 19.35 9.471
10518.7 0 114.8 19.36 1.648 9.499
2.3336E-06 114.1 19.36 9.488
10050.7 0 115.7 19.37 1.623 9.500
2.6117E-07 115.3 19.37 9.494
9699.66 0 116.5 19.37 1.603 9.500
1.1320E-07 116.2 19.37 9.498
9435.53 0 117.2 19.37 1.586 9.500
3.3059E-08 116.9 19.37 9.500
9231.59 0 117.8 19.37 1.571 9.500
1.1416E-08 117.6 19.37 9.500
9079.46 0 118.3 19.37 1.559 9.500
1.0093E-10 118.0 19.37 9.500
Fit parameter 5 has pegged
8726.78 0 119.7 19.37 1.518 9.503
0.000 118.8 19.37 9.501
Fit parameter 5 has pegged
8680.24 0 119.9 19.37 1.510 9.503
0.000 118.8 19.37 9.501
Fit parameter 5 has pegged
8647.26 0 120.1 19.37 1.505 9.503
0.000 118.9 19.37 9.501
Fit parameter 5 has pegged
8623.37 0 120.2 19.37 1.502 9.503
0.000 118.9 19.37 9.501
Fit parameter 5 has pegged
8605.85 0 120.4 19.37 1.500 9.503
0.000 118.9 19.37 9.501
Fit parameter 5 has pegged
8592.98 0 120.5 19.37 1.498 9.503
0.000 118.9 19.37 9.501
Fit parameter 5 has pegged
8581.60 0 120.5 19.37 1.497 9.503
0.000 119.0 19.37 9.501
Fit parameter 5 has pegged
8573.51 0 120.6 19.37 1.496 9.503
0.000 119.0 19.37 9.501
Fit parameter 5 has pegged
8567.39 0 120.6 19.37 1.495 9.503
0.000 119.0 19.37 9.501
Fit parameter 5 has pegged
8562.16 0 120.7 19.37 1.494 9.503
0.000 119.0 19.37 9.501
Fit parameter 5 has pegged
8559.31 0 120.7 19.37 1.494 9.503
0.000 119.0 19.37 9.501
Fit parameter 5 has pegged
8555.17 0 120.7 19.37 1.493 9.503
0.000 119.0 19.37 9.501
Fit parameter 5 has pegged
8554.68 0 120.7 19.37 1.493 9.503
0.000 119.0 19.37 9.501
Fit parameter 5 has pegged
8550.41 0 120.8 19.37 1.493 9.503
0.000 119.0 19.37 9.501
Fit parameter 5 has pegged
8549.82 0 120.8 19.37 1.493 9.503
0.000 119.0 19.37 9.501
Fit parameter 5 has pegged
8547.17 0 120.8 19.37 1.492 9.503
0.000 119.0 19.37 9.501
Fit parameter 5 has pegged
8520.51 0 120.9 19.37 1.486 9.503
0.000 119.1 19.37 9.501
Fit parameter 5 has pegged
8496.48 0 120.9 19.37 1.480 9.503
0.000 119.2 19.37 9.501
Fit parameter 5 has pegged
8474.81 0 121.0 19.37 1.475 9.503
0.000 119.2 19.37 9.501
Fit parameter 5 has pegged
8455.18 0 121.1 19.37 1.470 9.503
0.000 119.3 19.37 9.501
Fit parameter 5 has pegged
8437.42 0 121.2 19.37 1.466 9.503
0.000 119.3 19.37 9.501
Fit parameter 5 has pegged
8421.24 0 121.3 19.37 1.462 9.503
0.000 119.4 19.37 9.501
Fit parameter 5 has pegged
8406.54 0 121.3 19.37 1.458 9.503
0.000 119.4 19.37 9.501
Fit parameter 5 has pegged
8393.14 0 121.4 19.37 1.454 9.503
0.000 119.5 19.37 9.501
Fit parameter 5 has pegged
8380.86 0 121.5 19.37 1.451 9.503
0.000 119.5 19.37 9.501
Fit parameter 5 has pegged
8369.63 0 121.6 19.37 1.448 9.503
0.000 119.6 19.37 9.501
Fit parameter 5 has pegged
8359.35 0 121.6 19.37 1.445 9.503
0.000 119.6 19.37 9.501
Fit parameter 5 has pegged
8349.86 0 121.7 19.37 1.442 9.503
0.000 119.7 19.37 9.501
Fit parameter 5 has pegged
8341.18 0 121.8 19.37 1.440 9.503
0.000 119.7 19.37 9.501
Fit parameter 5 has pegged
8333.17 0 121.8 19.37 1.437 9.503
0.000 119.7 19.37 9.501
Fit parameter 5 has pegged
8325.78 0 121.9 19.37 1.435 9.503
0.000 119.8 19.37 9.501
Fit parameter 5 has pegged
8318.96 0 121.9 19.37 1.433 9.503
0.000 119.8 19.37 9.501
Fit parameter 5 has pegged
8312.68 0 122.0 19.37 1.431 9.503
0.000 119.8 19.37 9.501
Fit parameter 5 has pegged
8306.87 0 122.1 19.37 1.429 9.503
0.000 119.9 19.37 9.501
Fit parameter 5 has pegged
8301.50 0 122.1 19.37 1.427 9.503
0.000 119.9 19.37 9.501
Fit parameter 5 has pegged
8296.52 0 122.2 19.37 1.426 9.503
0.000 119.9 19.37 9.501
Fit parameter 5 has pegged
8291.90 0 122.2 19.37 1.424 9.503
0.000 120.0 19.37 9.501
Fit parameter 5 has pegged
8287.62 0 122.3 19.37 1.423 9.503
0.000 120.0 19.37 9.501
Fit parameter 5 has pegged
8283.70 0 122.3 19.37 1.421 9.503
0.000 120.0 19.37 9.501
Fit parameter 5 has pegged
8280.02 0 122.4 19.37 1.420 9.503
0.000 120.1 19.37 9.501
Fit parameter 5 has pegged
8276.59 0 122.4 19.37 1.419 9.503
0.000 120.1 19.37 9.501
Fit parameter 5 has pegged
8273.43 0 122.5 19.37 1.417 9.503
0.000 120.1 19.37 9.501
Fit parameter 5 has pegged
8270.47 0 122.5 19.37 1.416 9.503
0.000 120.1 19.37 9.501
Fit parameter 5 has pegged
8267.75 0 122.5 19.37 1.415 9.503
0.000 120.1 19.37 9.501
Fit parameter 5 has pegged
8265.18 0 122.6 19.37 1.414 9.503
0.000 120.2 19.37 9.501
Fit parameter 5 has pegged
8262.83 0 122.6 19.37 1.413 9.503
0.000 120.2 19.37 9.501
Fit parameter 5 has pegged
8260.61 0 122.7 19.37 1.412 9.503
0.000 120.2 19.37 9.501
Fit parameter 5 has pegged
8258.57 0 122.7 19.37 1.412 9.503
0.000 120.2 19.37 9.501
Fit parameter 5 has pegged
8256.63 0 122.7 19.37 1.411 9.503
0.000 120.2 19.37 9.501
Fit parameter 5 has pegged
8254.84 0 122.8 19.37 1.410 9.503
0.000 120.2 19.37 9.501
Fit parameter 5 has pegged
8253.16 0 122.8 19.37 1.409 9.503
0.000 120.3 19.37 9.501
Fit parameter 5 has pegged
8251.58 0 122.8 19.37 1.409 9.503
0.000 120.3 19.37 9.501
Fit parameter 5 has pegged
8250.16 0 122.9 19.37 1.408 9.503
0.000 120.3 19.37 9.501
Fit parameter 5 has pegged
8248.78 0 122.9 19.37 1.407 9.503
0.000 120.3 19.37 9.501
Fit parameter 5 has pegged
8247.48 0 122.9 19.37 1.407 9.503
0.000 120.3 19.37 9.501
Fit parameter 5 has pegged
8246.30 0 122.9 19.37 1.406 9.503
0.000 120.3 19.37 9.501
Fit parameter 5 has pegged
8245.16 0 123.0 19.37 1.406 9.503
0.000 120.3 19.37 9.501
Fit parameter 5 has pegged
8244.13 0 123.0 19.37 1.405 9.503
0.000 120.3 19.37 9.501
Fit parameter 5 has pegged
8243.15 0 123.0 19.37 1.405 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8242.24 0 123.0 19.37 1.404 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8241.38 0 123.1 19.37 1.404 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8240.55 0 123.1 19.37 1.403 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8239.81 0 123.1 19.37 1.403 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8239.08 0 123.1 19.37 1.403 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8238.42 0 123.1 19.37 1.402 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8237.78 0 123.2 19.37 1.402 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8237.20 0 123.2 19.37 1.401 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8236.65 0 123.2 19.37 1.401 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8236.11 0 123.2 19.37 1.401 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8235.62 0 123.2 19.37 1.401 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8235.14 0 123.2 19.37 1.400 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8234.70 0 123.2 19.37 1.400 9.503
0.000 120.4 19.37 9.501
Fit parameter 5 has pegged
8234.29 0 123.3 19.37 1.400 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8233.92 0 123.3 19.37 1.400 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8233.53 0 123.3 19.37 1.399 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8233.18 0 123.3 19.37 1.399 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8232.87 0 123.3 19.37 1.399 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8232.54 0 123.3 19.37 1.399 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8232.27 0 123.3 19.37 1.398 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8231.96 0 123.3 19.37 1.398 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8231.70 0 123.4 19.37 1.398 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8231.46 0 123.4 19.37 1.398 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8231.22 0 123.4 19.37 1.398 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8231.01 0 123.4 19.37 1.398 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8230.78 0 123.4 19.37 1.397 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8230.57 0 123.4 19.37 1.397 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8230.38 0 123.4 19.37 1.397 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8230.19 0 123.4 19.37 1.397 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8230.04 0 123.4 19.37 1.397 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8229.87 0 123.4 19.37 1.397 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8229.71 0 123.4 19.37 1.397 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8229.58 0 123.4 19.37 1.397 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8229.42 0 123.4 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8229.29 0 123.4 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8229.17 0 123.5 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8229.05 0 123.5 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8228.93 0 123.5 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8228.84 0 123.5 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8228.72 0 123.5 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8228.61 0 123.5 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8228.54 0 123.5 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8228.45 0 123.5 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8228.36 0 123.5 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8228.28 0 123.5 19.37 1.396 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8228.20 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8228.14 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8228.05 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.99 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.93 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.85 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.80 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.77 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.70 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.64 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.62 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.56 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.51 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.47 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.41 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.38 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.35 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.31 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.28 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.23 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.20 0 123.5 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.18 0 123.6 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.17 0 123.6 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.15 0 123.6 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.09 0 123.6 19.37 1.395 9.503
0.000 120.5 19.37 9.501
Fit parameter 5 has pegged
8227.09 0 123.6 19.37 1.395 9.503
0.000 120.5 19.37 9.501
8227.01 0 123.6 19.37 1.395 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.97 0 123.6 19.37 1.395 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.95 0 123.6 19.37 1.395 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.95 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
8226.84 1 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.82 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.81 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
8226.76 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.75 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.73 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.70 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.66 1 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.64 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.60 1 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.58 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.53 1 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.53 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
8226.51 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.50 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
8226.43 1 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.42 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
8226.39 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.39 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
8226.33 1 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.29 1 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.27 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.26 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
8226.18 1 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
Fit parameter 5 has pegged
8226.17 0 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
8226.09 1 123.6 19.37 1.394 9.503
0.000 120.6 19.37 9.501
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.66E-05 | -0.01 0.00 -1.00 -0.01 0.00
3.80E-02 | -0.96 -0.04 0.01 -0.27 -0.02
3.28E-02 | -0.27 0.00 -0.01 0.96 0.06
7.19E+00 | -0.03 0.91 0.00 -0.03 0.42
3.98E+00 | 0.01 -0.42 0.00 -0.05 0.91
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 123.601 +/- 0.214907 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.57345 1
3 3 1 gaussian norm 1.39355 +/- 0.892597E-02 1
4 4 2 powerlaw PhoIndex 9.50337 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 120.582 +/- 0.225938 2
7 7 3 gaussian Sigma keV 19.3655 +/- 2.12554 2
8 3 3 gaussian norm 1.39355 = par 3 2
9 8 4 powerlaw PhoIndex 9.50074 +/- -1.00000 2
10 5 4 powerlaw norm 0.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 8226.091 using 198 PHA bins.
Reduced chi-squared = 43.29522 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 41.757) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 41.757) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.238 photons ( 2.5337E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.193 photons ( 2.4026E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:09:59 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.366 +/- 1.0612E-02
Net count rate (cts/s) for file 2 3.366 +/- 1.0612E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 146133.4 using 168 PHA bins.
Reduced chi-squared = 913.3335 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12323.66 using 168 PHA bins.
Reduced chi-squared = 77.02286 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2196.03 -3 85.87 14.06 0.1931 0.9809
0.7857 86.19 13.06 0.9707
675.575 -4 73.53 15.53 0.2264 0.8949
0.6216 76.61 13.78 0.8972
550.208 -2 80.09 7.724 0.1372 0.9044
0.6914 80.70 9.204 0.9007
510.913 -2 76.89 13.17 0.1969 0.9125
0.6939 78.89 12.76 0.9121
346.754 -3 78.12 9.285 0.1680 0.9202
0.7316 80.02 9.536 0.9192
336.358 -2 76.81 9.896 0.2044 0.9235
0.7229 79.20 12.36 0.9233
285.014 -3 77.12 9.287 0.1953 0.9228
0.7256 79.54 9.845 0.9223
283.755 0 77.07 9.364 0.1969 0.9229
0.7252 79.44 9.915 0.9225
283.087 0 77.04 9.415 0.1981 0.9230
0.7248 79.39 9.966 0.9227
282.733 -1 77.00 9.572 0.2023 0.9234
0.7234 79.31 10.35 0.9231
281.970 -2 77.01 9.601 0.2035 0.9235
0.7231 79.31 10.15 0.9233
281.962 -3 77.01 9.604 0.2037 0.9236
0.7231 79.30 10.18 0.9233
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.44E-06 | 0.00 0.00 -0.23 0.63 -0.41 0.00 0.00 0.61
1.85E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.83E-05 | 0.00 0.01 -0.97 -0.14 0.11 0.00 0.04 -0.14
1.67E-03 | 0.03 0.01 -0.01 -0.31 -0.90 0.03 0.10 -0.29
4.11E-03 | 0.00 -0.08 0.04 0.03 0.08 0.01 0.99 0.04
8.78E-02 | 0.77 0.63 0.01 0.01 0.03 -0.09 0.05 0.01
1.17E-01 | -0.45 0.44 0.01 -0.01 -0.03 -0.78 0.05 -0.01
9.95E-02 | -0.46 0.63 0.01 0.01 0.01 0.62 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 77.0082 +/- 0.310028 1
2 2 1 gaussian Sigma keV 9.60421 +/- 0.312429 1
3 3 1 gaussian norm 0.203741 +/- 0.606633E-02 1
4 4 2 powerlaw PhoIndex 0.923576 +/- 0.136365E-01 1
5 5 2 powerlaw norm 0.723102 +/- 0.394901E-01 1
6 6 3 gaussian LineE keV 79.2981 +/- 0.331794 2
7 7 3 gaussian Sigma keV 10.1769 +/- 0.684815E-01 2
8 3 3 gaussian norm 0.203741 = par 3 2
9 8 4 powerlaw PhoIndex 0.923320 +/- 0.130980E-01 2
10 5 4 powerlaw norm 0.723102 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 281.9625 using 168 PHA bins.
Reduced chi-squared = 1.762265 for 160 degrees of freedom
Null hypothesis probability = 8.982E-09
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 76.5163 77.5003 ( -0.491905 , 0.492134 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 78.7708 79.8249 ( -0.527222 , 0.526848 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.332 photons ( 1.6014E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.334 photons ( 1.6104E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w12_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
46.71556
=====best line=====
77.0084 0.310012
=====best sigma=====
9.60373 0.312427
=====norm=====
0.203731 0.606748E-02
=====phoindx=====
0.923549 0.136374E-01
=====pow_norm=====
0.723013 0.394733E-01
=====best line=====
79.2981 0.331818
=====best sigma=====
10.1754 0.681938E-01
=====norm=====
0.203731 par
=====phoindx=====
0.923289 0.130989E-01
=====pow_norm=====
0.723013 par
=====redu_chi=====
1.762265
=====slow error=====
-0.492294 0.491783
=====fast error=====
-0.527367 0.526672
=====area_flux=====
1.332
=====area_flux_f=====
1.334
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.872616 8.432312
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 6 1 640 2000 1232.1344 7.872616 0.203731 0.606748E-02 9.60373 0.312427 0.923549 0.136374E-01 0.723013 0.394733E-01 1.332 640 2000 1268.7696 8.432312 0.203731 0.606748E-02 10.1754 0.681938E-01 0.923289 0.130989E-01 0.723013 0.394733E-01 1.334 1.762265 0
=====redu_chi=====
243.5646
=====best line=====
123.601 0.214907
=====best sigma=====
19.3655 2.57345
=====norm=====
1.39355 0.892597E-02
=====phoindx=====
9.50337 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
120.582 0.225938
=====best sigma=====
19.3655 2.12554
=====norm=====
1.39355 par
=====phoindx=====
9.50074 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
43.29522
=====area_flux=====
1.238
=====area_flux_f=====
1.193
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.872616 8.432312
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 6 1 1600 3200 1977.616 7.872616 1.39355 0.892597E-02 309.848 41.1752 9.50337 -1.00000 0.00000 -1.00000 1.238 1600 3200 1929.312 8.432312 1.39355 0.892597E-02 309.848 34.00864 9.50074 -1.00000 0.00000 -1.00000 1.193 43.29522 1
=====redu_chi=====
77.02286
=====best line=====
77.0082 0.310028
=====best sigma=====
9.60421 0.312429
=====norm=====
0.203741 0.606633E-02
=====phoindx=====
0.923576 0.136365E-01
=====pow_norm=====
0.723102 0.394901E-01
=====best line=====
79.2981 0.331794
=====best sigma=====
10.1769 0.684815E-01
=====norm=====
0.203741 par
=====phoindx=====
0.923320 0.130980E-01
=====pow_norm=====
0.723102 par
=====redu_chi=====
1.762265
=====slow error=====
-0.491905 0.492134
=====fast error=====
-0.527222 0.526848
=====area_flux=====
1.332
=====area_flux_f=====
1.334
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.872312 8.43256
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 6 1 640 2000 1232.1312 7.872312 0.203741 0.606633E-02 9.60421 0.312429 0.923576 0.136365E-01 0.723102 0.394901E-01 1.332 640 2000 1268.7696 8.43256 0.203741 0.606633E-02 10.1769 0.684815E-01 0.923320 0.130980E-01 0.723102 0.394901E-01 1.334 1.762265 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:09:59 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.819 +/- 1.1304E-02
Net count rate (cts/s) for file 2 3.819 +/- 1.1304E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 92496.23 using 168 PHA bins.
Reduced chi-squared = 578.1014 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 12730.40 using 168 PHA bins.
Reduced chi-squared = 79.56502 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2930.15 -3 85.18 17.37 0.2802 0.9085
0.7506 84.13 17.20 0.9006
2252.96 -4 65.37 19.25 0.6497 0.9181
0.6191 65.80 19.00 0.9191
1917.33 -2 69.22 7.968 5.3991E-02 0.8323
0.6679 72.36 4.416 0.8323
1508.26 -1 57.07 7.774 0.1480 0.8383
0.6347 70.82 10.30 0.8383
697.505 -2 67.08 9.181 0.1679 0.8154
0.5658 70.19 9.389 0.8169
440.283 -2 63.88 8.557 0.2204 0.7894
0.4867 69.56 9.131 0.7908
387.493 -2 64.77 7.781 0.2163 0.7661
0.4440 69.55 9.060 0.7672
364.109 -2 64.42 8.200 0.2244 0.7476
0.4079 69.36 9.308 0.7486
350.317 -2 64.39 8.157 0.2257 0.7327
0.3828 69.28 9.313 0.7336
341.730 -2 64.31 8.232 0.2283 0.7209
0.3634 69.18 9.390 0.7217
335.755 -3 64.08 8.464 0.2372 0.6833
0.3047 68.88 9.658 0.6851
325.355 -4 64.00 8.526 0.2408 0.6679
0.2870 68.76 9.736 0.6688
325.235 -5 64.01 8.510 0.2405 0.6687
0.2878 68.76 9.721 0.6690
325.235 -6 64.01 8.513 0.2405 0.6686
0.2877 68.76 9.723 0.6689
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.40E-07 | 0.00 0.00 -0.13 0.47 -0.75 0.00 0.00 0.44
1.53E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
2.16E-05 | 0.00 0.01 -0.99 -0.09 0.06 0.00 0.01 -0.10
4.68E-04 | 0.02 -0.02 0.06 -0.54 -0.66 0.02 -0.02 -0.52
4.80E-02 | -0.25 -0.83 0.00 0.00 0.00 0.00 0.50 0.00
6.37E-02 | 0.92 -0.06 0.00 0.01 0.01 -0.11 0.37 0.01
1.56E-01 | 0.29 -0.48 -0.01 0.02 0.03 0.51 -0.66 0.02
8.24E-02 | 0.06 -0.28 -0.01 0.00 0.00 -0.85 -0.43 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 64.0082 +/- 0.265395 1
2 2 1 gaussian Sigma keV 8.51271 +/- 0.274202 1
3 3 1 gaussian norm 0.240531 +/- 0.765551E-02 1
4 4 2 powerlaw PhoIndex 0.668636 +/- 0.144768E-01 1
5 5 2 powerlaw norm 0.287669 +/- 0.179268E-01 1
6 6 3 gaussian LineE keV 68.7603 +/- 0.318119 2
7 7 3 gaussian Sigma keV 9.72336 +/- 0.321302 2
8 3 3 gaussian norm 0.240531 = par 3 2
9 8 4 powerlaw PhoIndex 0.668936 +/- 0.138362E-01 2
10 5 4 powerlaw norm 0.287669 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 325.2350 using 168 PHA bins.
Reduced chi-squared = 2.032719 for 160 degrees of freedom
Null hypothesis probability = 2.460E-13
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 63.6035 64.4131 ( -0.404743 , 0.404884 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 68.2815 69.2382 ( -0.478798 , 0.477882 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.575 photons ( 1.8852E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.573 photons ( 1.9015E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:10:00 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 9.373 +/- 1.7709E-02
Net count rate (cts/s) for file 2 9.373 +/- 1.7709E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.554 +/- 2.1009E-02( 59.3% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.554 +/- 2.1009E-02( 59.3% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 2826513. using 198 PHA bins.
Reduced chi-squared = 14876.38 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 43371.06 using 198 PHA bins.
Reduced chi-squared = 228.2688 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
21708.8 -3 116.5 19.15 0.5863 2.670
0.1834 115.9 19.12 2.626
21477.6 1 116.5 19.11 0.5920 2.146
4.7317E-02 115.9 19.08 3.773
19065.6 0 117.2 18.51 0.6460 1.723
0.1861 115.5 18.42 7.002
17018.1 0 119.4 9.274 0.9940 1.863
7.7388E-02 114.1 9.585 8.656
11800.6 -1 118.2 18.83 1.198 1.433
0.4631 112.5 18.80 9.265
6744.82 -2 115.2 18.69 1.544 1.545
9.3275E-02 111.5 17.39 9.458
6543.12 0 115.2 18.72 1.534 1.848
2.2910E-02 111.3 17.27 9.488
6518.42 0 115.3 18.75 1.531 6.737
5.4546E-03 111.2 17.23 9.496
6489.81 0 115.3 18.73 1.529 9.175
2.6737E-03 111.1 17.18 9.500
6471.24 0 115.2 18.71 1.528 9.479
1.3210E-03 111.0 17.14 9.500
6459.38 0 115.2 18.69 1.527 9.493
6.7102E-05 111.0 17.11 9.500
6450.60 0 115.2 18.68 1.525 9.498
2.2904E-05 111.0 17.09 9.500
6443.97 0 115.2 18.67 1.524 9.499
8.6925E-07 110.9 17.07 9.500
6438.95 0 115.2 18.66 1.524 9.500
1.8577E-07 110.9 17.05 9.500
6435.02 0 115.2 18.65 1.523 9.500
1.6346E-08 110.9 17.04 9.500
6424.92 0 115.2 18.62 1.521 9.500
1.3928E-10 110.9 16.99 9.500
6422.45 0 115.1 18.61 1.520 9.500
5.2028E-11 110.8 16.98 9.500
6420.56 0 115.1 18.60 1.519 9.500
8.7034E-12 110.8 16.96 9.500
6419.10 0 115.1 18.59 1.519 9.500
3.3194E-12 110.8 16.95 9.500
6417.94 0 115.1 18.59 1.518 9.500
6.4030E-13 110.8 16.95 9.500
6417.03 0 115.1 18.58 1.518 9.500
3.0675E-13 110.8 16.94 9.500
6416.30 0 115.1 18.58 1.517 9.500
1.4053E-13 110.8 16.93 9.500
6415.67 0 115.1 18.57 1.517 9.500
5.7655E-14 110.8 16.93 9.500
Fit parameter 5 has pegged
6409.82 0 115.2 18.50 1.512 9.500
0.000 110.8 16.83 9.500
Fit parameter 5 has pegged
6405.22 -1 115.4 18.36 1.497 9.500
0.000 111.1 16.70 9.500
Fit parameter 5 has pegged
6403.74 -2 115.6 18.32 1.489 9.500
0.000 111.3 16.66 9.500
Fit parameter 5 has pegged
6403.61 -3 115.7 18.30 1.487 9.500
0.000 111.3 16.64 9.500
Fit parameter 5 has pegged
6403.60 -4 115.7 18.29 1.486 9.500
0.000 111.3 16.64 9.500
Fit parameter 5 has pegged
6403.56 -5 115.7 18.30 1.486 9.500
0.000 111.3 16.63 9.500
Fit parameter 5 has pegged
6403.54 3 115.7 18.30 1.486 9.500
0.000 111.3 16.63 9.500
Fit parameter 5 has pegged
6403.54 4 115.7 18.30 1.486 9.500
0.000 111.3 16.63 9.500
6403.54 4 115.7 18.30 1.486 9.500
0.000 111.3 16.63 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
5.78E-05 | -0.01 0.01 -1.00 -0.02 0.02
2.20E-03 | 0.01 0.00 0.02 0.22 0.98
1.81E-02 | -0.78 -0.62 0.01 0.07 -0.01
1.32E-01 | -0.60 0.71 0.02 -0.35 0.09
4.69E-02 | -0.17 0.32 -0.02 0.91 -0.20
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 115.687 +/- 0.244498 1
2 2 1 gaussian Sigma keV 18.2953 +/- 0.281565 1
3 3 1 gaussian norm 1.48630 +/- 0.110439E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 111.338 +/- 0.234786 2
7 7 3 gaussian Sigma keV 16.6337 +/- 0.700422E-01 2
8 3 3 gaussian norm 1.48630 = 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 = 6403.544 using 198 PHA bins.
Reduced chi-squared = 33.70286 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 32.505) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 32.505) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.195 photons ( 2.3362E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.118 photons ( 2.1196E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:10:00 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.819 +/- 1.1304E-02
Net count rate (cts/s) for file 2 3.819 +/- 1.1304E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 126130.2 using 168 PHA bins.
Reduced chi-squared = 788.3140 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 20233.86 using 168 PHA bins.
Reduced chi-squared = 126.4616 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
8773.16 -3 88.27 13.04 7.9438E-02 0.7365
0.5215 87.30 13.40 0.7306
2601.60 -4 60.25 19.27 0.2943 0.8697
0.6556 51.90 19.19 0.8632
2375.71 0 61.25 18.75 0.2918 0.8695
0.6554 54.21 19.32 0.8631
2170.17 0 62.10 18.22 0.2901 0.8693
0.6550 56.43 19.35 0.8631
1308.40 0 66.53 7.345 0.2795 0.8685
0.6503 67.75 19.36 0.8648
909.257 0 66.42 7.499 0.2766 0.8681
0.6505 68.33 9.783 0.8649
674.402 0 65.85 8.131 0.2557 0.8649
0.6533 69.15 9.833 0.8636
559.372 -1 65.23 8.140 0.2188 0.8559
0.6492 70.18 9.050 0.8559
475.052 -2 64.89 7.932 0.2143 0.8169
0.5481 69.90 9.037 0.8186
415.483 -2 64.67 8.016 0.2180 0.7865
0.4825 69.66 9.134 0.7879
381.718 -2 64.54 8.063 0.2209 0.7633
0.4370 69.50 9.197 0.7644
361.410 -2 64.44 8.129 0.2239 0.7451
0.4040 69.37 9.273 0.7461
348.771 -2 64.36 8.184 0.2264 0.7308
0.3795 69.26 9.336 0.7316
347.586 -3 64.09 8.460 0.2366 0.6860
0.3068 68.90 9.651 0.6882
325.399 -4 64.00 8.528 0.2408 0.6678
0.2867 68.76 9.739 0.6687
325.236 -5 64.01 8.510 0.2405 0.6688
0.2878 68.76 9.720 0.6690
325.235 -6 64.01 8.513 0.2405 0.6686
0.2877 68.76 9.723 0.6689
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
6.40E-07 | 0.00 0.00 -0.13 0.47 -0.75 0.00 0.00 0.44
1.53E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
2.16E-05 | 0.00 0.01 -0.99 -0.09 0.06 0.00 0.01 -0.10
4.68E-04 | 0.02 -0.02 0.06 -0.54 -0.66 0.02 -0.02 -0.52
4.80E-02 | -0.25 -0.83 0.00 0.00 0.00 0.00 0.50 0.00
6.37E-02 | 0.92 -0.06 0.00 0.01 0.01 -0.11 0.37 0.01
1.56E-01 | 0.29 -0.48 -0.01 0.02 0.03 0.51 -0.66 0.02
8.24E-02 | 0.06 -0.28 -0.01 0.00 0.00 -0.85 -0.43 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 64.0083 +/- 0.265381 1
2 2 1 gaussian Sigma keV 8.51261 +/- 0.274189 1
3 3 1 gaussian norm 0.240526 +/- 0.765499E-02 1
4 4 2 powerlaw PhoIndex 0.668644 +/- 0.144765E-01 1
5 5 2 powerlaw norm 0.287679 +/- 0.179271E-01 1
6 6 3 gaussian LineE keV 68.7605 +/- 0.318140 2
7 7 3 gaussian Sigma keV 9.72305 +/- 0.321289 2
8 3 3 gaussian norm 0.240526 = par 3 2
9 8 4 powerlaw PhoIndex 0.668943 +/- 0.138360E-01 2
10 5 4 powerlaw norm 0.287679 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 325.2349 using 168 PHA bins.
Reduced chi-squared = 2.032718 for 160 degrees of freedom
Null hypothesis probability = 2.460E-13
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 63.6035 64.4131 ( -0.404720 , 0.404869 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 68.2815 69.2383 ( -0.478966 , 0.477753 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.575 photons ( 1.8852E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.573 photons ( 1.9015E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w13_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
79.56502
=====best line=====
64.0082 0.265395
=====best sigma=====
8.51271 0.274202
=====norm=====
0.240531 0.765551E-02
=====phoindx=====
0.668636 0.144768E-01
=====pow_norm=====
0.287669 0.179268E-01
=====best line=====
68.7603 0.318119
=====best sigma=====
9.72336 0.321302
=====norm=====
0.240531 par
=====phoindx=====
0.668936 0.138362E-01
=====pow_norm=====
0.287669 par
=====redu_chi=====
2.032719
=====slow error=====
-0.404743 0.404884
=====fast error=====
-0.478798 0.477882
=====area_flux=====
1.575
=====area_flux_f=====
1.573
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.477016 7.65344
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 7 1 640 2000 1024.1312 6.477016 0.240531 0.765551E-02 8.51271 0.274202 0.668636 0.144768E-01 0.287669 0.179268E-01 1.575 640 2000 1100.1648 7.65344 0.240531 0.765551E-02 9.72336 0.321302 0.668936 0.138362E-01 0.287669 0.179268E-01 1.573 2.032719 0
=====redu_chi=====
228.2688
=====best line=====
115.687 0.244498
=====best sigma=====
18.2953 0.281565
=====norm=====
1.48630 0.110439E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.338 0.234786
=====best sigma=====
16.6337 0.700422E-01
=====norm=====
1.48630 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
33.70286
=====area_flux=====
1.195
=====area_flux_f=====
1.118
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.477016 7.65344
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 7 1 1600 3200 1850.992 6.477016 1.48630 0.110439E-01 292.7248 4.50504 9.50000 -1.00000 0.00000 -1.00000 1.195 1600 3200 1781.408 7.65344 1.48630 0.110439E-01 266.1392 1.1206752 9.50000 -1.00000 0.00000 -1.00000 1.118 33.70286 1
=====redu_chi=====
126.4616
=====best line=====
64.0083 0.265381
=====best sigma=====
8.51261 0.274189
=====norm=====
0.240526 0.765499E-02
=====phoindx=====
0.668644 0.144765E-01
=====pow_norm=====
0.287679 0.179271E-01
=====best line=====
68.7605 0.318140
=====best sigma=====
9.72305 0.321289
=====norm=====
0.240526 par
=====phoindx=====
0.668943 0.138360E-01
=====pow_norm=====
0.287679 par
=====redu_chi=====
2.032718
=====slow error=====
-0.404720 0.404869
=====fast error=====
-0.478966 0.477753
=====area_flux=====
1.575
=====area_flux_f=====
1.573
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.476712 7.653752
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 7 1 640 2000 1024.1328 6.476712 0.240526 0.765499E-02 8.51261 0.274189 0.668644 0.144765E-01 0.287679 0.179271E-01 1.575 640 2000 1100.168 7.653752 0.240526 0.765499E-02 9.72305 0.321289 0.668943 0.138360E-01 0.287679 0.179271E-01 1.573 2.032718 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:10:00 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.461 +/- 1.0761E-02
Net count rate (cts/s) for file 2 3.461 +/- 1.0761E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 119890.7 using 168 PHA bins.
Reduced chi-squared = 749.3168 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 10146.82 using 168 PHA bins.
Reduced chi-squared = 63.41765 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4490.16 -3 82.25 17.21 0.3242 1.065
0.9145 82.19 17.08 1.055
1961.81 -3 72.35 17.41 0.2977 0.8460
0.4368 73.00 16.42 0.8555
1193.46 -1 72.90 6.719 0.2761 0.8326
0.4766 73.75 9.188 0.8311
450.263 -2 72.83 8.502 0.2213 0.8454
0.5293 74.36 9.657 0.8456
436.503 -3 73.23 9.437 0.2244 0.8969
0.6438 74.87 9.744 0.8955
398.450 -4 73.60 9.344 0.2232 0.9173
0.7170 75.01 9.678 0.9170
394.136 -5 73.57 9.437 0.2247 0.9164
0.7206 75.00 9.728 0.9172
394.126 -6 73.59 9.409 0.2242 0.9166
0.7216 75.01 9.710 0.9174
394.125 -7 73.59 9.421 0.2244 0.9165
0.7212 75.01 9.717 0.9173
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.42E-06 | 0.00 0.00 -0.22 0.64 -0.41 0.00 0.00 0.61
1.81E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.92E-05 | 0.00 0.01 -0.98 -0.14 0.10 0.00 0.01 -0.14
1.58E-03 | 0.04 0.00 -0.01 -0.31 -0.90 0.04 0.00 -0.29
5.51E-02 | -0.13 -0.73 0.00 0.00 0.00 0.10 0.66 0.00
1.23E-01 | 0.32 -0.57 -0.01 0.01 0.03 0.41 -0.64 0.01
7.81E-02 | 0.91 0.01 0.00 0.01 0.02 -0.33 0.24 0.01
8.28E-02 | 0.21 0.37 0.01 0.01 0.03 0.84 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 73.5874 +/- 0.287353 1
2 2 1 gaussian Sigma keV 9.42065 +/- 0.284633 1
3 3 1 gaussian norm 0.224401 +/- 0.607879E-02 1
4 4 2 powerlaw PhoIndex 0.916507 +/- 0.131058E-01 1
5 5 2 powerlaw norm 0.721239 +/- 0.386240E-01 1
6 6 3 gaussian LineE keV 75.0072 +/- 0.297675 2
7 7 3 gaussian Sigma keV 9.71680 +/- 0.294927 2
8 3 3 gaussian norm 0.224401 = par 3 2
9 8 4 powerlaw PhoIndex 0.917305 +/- 0.125693E-01 2
10 5 4 powerlaw norm 0.721239 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 394.1248 using 168 PHA bins.
Reduced chi-squared = 2.463280 for 160 degrees of freedom
Null hypothesis probability = 9.100E-22
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.360) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.360) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.385 photons ( 1.6533E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.381 photons ( 1.6535E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:10:00 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.241 +/- 1.6605E-02
Net count rate (cts/s) for file 2 8.241 +/- 1.6605E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.779 +/- 1.9787E-02( 58.0% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.779 +/- 1.9787E-02( 58.0% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 2201923. using 198 PHA bins.
Reduced chi-squared = 11589.07 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 39588.79 using 198 PHA bins.
Reduced chi-squared = 208.3620 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
19591.0 -3 120.5 17.76 0.4726 2.862
0.2680 118.1 17.82 2.806
8190.71 -2 109.4 19.23 1.467 6.716
0.1085 105.7 19.17 8.640
7354.33 0 111.0 19.31 1.501 8.728
4.0099E-02 108.1 19.36 9.217
7008.14 0 112.2 19.35 1.503 9.354
8.9581E-03 109.6 19.36 9.381
6804.44 0 113.0 19.36 1.492 9.456
7.1761E-04 110.6 19.37 9.468
6666.08 0 113.7 19.37 1.477 9.497
3.2417E-04 111.4 19.37 9.498
6572.16 0 114.3 19.37 1.462 9.499
6.9732E-05 111.9 19.37 9.499
6504.81 0 114.8 19.37 1.447 9.500
2.2221E-06 112.4 19.37 9.500
6457.64 0 115.2 19.37 1.434 9.500
4.8165E-08 112.7 19.37 9.500
6427.17 0 115.5 19.37 1.423 9.500
1.3764E-08 112.9 19.37 9.500
6368.21 0 116.1 19.37 1.397 9.500
1.3904E-11 113.3 19.37 9.500
6354.03 0 116.3 19.37 1.392 9.500
1.8039E-12 113.3 19.37 9.500
6345.27 0 116.4 19.37 1.388 9.500
2.9108E-13 113.4 19.37 9.500
Fit parameter 5 has pegged
6294.41 0 116.5 19.37 1.376 9.500
0.000 113.1 18.99 9.500
Fit parameter 5 has pegged
6288.77 0 116.5 19.37 1.371 9.500
0.000 113.1 19.02 9.500
Fit parameter 5 has pegged
6285.29 0 116.5 19.37 1.368 9.500
0.000 113.1 19.03 9.500
Fit parameter 5 has pegged
6283.66 0 116.5 19.37 1.367 9.500
0.000 113.1 19.03 9.500
Fit parameter 5 has pegged
6281.78 0 116.5 19.37 1.366 9.500
0.000 113.1 19.02 9.500
Fit parameter 5 has pegged
6281.04 0 116.5 19.37 1.365 9.500
0.000 113.1 19.02 9.500
Fit parameter 5 has pegged
6280.05 0 116.5 19.37 1.365 9.500
0.000 113.1 19.01 9.500
Fit parameter 5 has pegged
6279.43 0 116.6 19.37 1.364 9.500
0.000 113.1 19.01 9.500
Fit parameter 5 has pegged
6278.78 0 116.6 19.37 1.364 9.500
0.000 113.1 19.01 9.500
Fit parameter 5 has pegged
6278.44 0 116.6 19.37 1.364 9.500
0.000 113.1 19.01 9.500
Fit parameter 5 has pegged
6278.15 0 116.6 19.37 1.363 9.500
0.000 113.1 19.00 9.500
Fit parameter 5 has pegged
6277.81 0 116.6 19.37 1.363 9.500
0.000 113.1 19.01 9.500
Fit parameter 5 has pegged
6277.48 0 116.6 19.37 1.363 9.500
0.000 113.1 19.00 9.500
Fit parameter 5 has pegged
6277.21 0 116.6 19.37 1.363 9.500
0.000 113.1 19.00 9.500
Fit parameter 5 has pegged
6274.13 0 116.6 19.37 1.362 9.500
0.000 113.1 19.00 9.500
Fit parameter 5 has pegged
6271.32 0 116.7 19.37 1.360 9.500
0.000 113.1 19.00 9.500
Fit parameter 5 has pegged
6268.76 0 116.8 19.37 1.359 9.500
0.000 113.1 19.00 9.500
Fit parameter 5 has pegged
6266.41 0 116.8 19.37 1.358 9.500
0.000 113.1 19.00 9.500
Fit parameter 5 has pegged
6264.26 0 116.8 19.37 1.357 9.500
0.000 113.1 19.00 9.500
Fit parameter 5 has pegged
6262.33 0 116.9 19.37 1.356 9.500
0.000 113.2 19.00 9.500
Fit parameter 5 has pegged
6260.55 0 116.9 19.37 1.355 9.500
0.000 113.2 18.99 9.500
Fit parameter 5 has pegged
6258.89 0 117.0 19.37 1.354 9.500
0.000 113.2 18.99 9.500
Fit parameter 5 has pegged
6257.38 0 117.0 19.37 1.353 9.500
0.000 113.2 18.99 9.500
Fit parameter 5 has pegged
6255.98 0 117.0 19.37 1.352 9.500
0.000 113.2 18.99 9.500
Fit parameter 5 has pegged
6254.71 0 117.1 19.37 1.351 9.500
0.000 113.2 18.99 9.500
Fit parameter 5 has pegged
6253.53 0 117.1 19.37 1.350 9.500
0.000 113.2 18.98 9.500
Fit parameter 5 has pegged
6252.46 0 117.1 19.37 1.349 9.500
0.000 113.2 18.98 9.500
Fit parameter 5 has pegged
6251.46 0 117.2 19.37 1.349 9.500
0.000 113.2 18.98 9.500
Fit parameter 5 has pegged
6250.54 0 117.2 19.37 1.348 9.500
0.000 113.2 18.97 9.500
Fit parameter 5 has pegged
6249.66 0 117.2 19.37 1.347 9.500
0.000 113.2 18.97 9.500
Fit parameter 5 has pegged
6248.89 0 117.3 19.37 1.347 9.500
0.000 113.2 18.97 9.500
Fit parameter 5 has pegged
6248.16 0 117.3 19.37 1.346 9.500
0.000 113.2 18.97 9.500
Fit parameter 5 has pegged
6247.43 0 117.3 19.37 1.345 9.500
0.000 113.2 18.96 9.500
Fit parameter 5 has pegged
6246.80 0 117.3 19.37 1.345 9.500
0.000 113.3 18.96 9.500
Fit parameter 5 has pegged
6246.17 0 117.3 19.37 1.344 9.500
0.000 113.3 18.96 9.500
Fit parameter 5 has pegged
6245.65 0 117.4 19.37 1.344 9.500
0.000 113.3 18.95 9.500
Fit parameter 5 has pegged
6245.14 0 117.4 19.37 1.343 9.500
0.000 113.3 18.95 9.500
Fit parameter 5 has pegged
6244.64 0 117.4 19.37 1.343 9.500
0.000 113.3 18.95 9.500
Fit parameter 5 has pegged
6244.17 0 117.4 19.37 1.342 9.500
0.000 113.3 18.94 9.500
Fit parameter 5 has pegged
6243.72 0 117.4 19.37 1.342 9.500
0.000 113.3 18.94 9.500
Fit parameter 5 has pegged
6243.32 0 117.4 19.37 1.341 9.500
0.000 113.3 18.94 9.500
Fit parameter 5 has pegged
6242.94 0 117.5 19.37 1.341 9.500
0.000 113.3 18.94 9.500
Fit parameter 5 has pegged
6242.58 0 117.5 19.37 1.340 9.500
0.000 113.3 18.93 9.500
Fit parameter 5 has pegged
6242.23 0 117.5 19.37 1.340 9.500
0.000 113.3 18.93 9.500
Fit parameter 5 has pegged
6241.91 0 117.5 19.37 1.340 9.500
0.000 113.4 18.93 9.500
Fit parameter 5 has pegged
6241.62 0 117.5 19.37 1.339 9.500
0.000 113.4 18.92 9.500
Fit parameter 5 has pegged
6241.32 0 117.5 19.37 1.339 9.500
0.000 113.4 18.92 9.500
Fit parameter 5 has pegged
6241.05 0 117.5 19.37 1.338 9.500
0.000 113.4 18.92 9.500
Fit parameter 5 has pegged
6240.81 0 117.5 19.37 1.338 9.500
0.000 113.4 18.91 9.500
Fit parameter 5 has pegged
6240.55 0 117.5 19.37 1.338 9.500
0.000 113.4 18.91 9.500
Fit parameter 5 has pegged
6240.31 0 117.6 19.37 1.337 9.500
0.000 113.4 18.91 9.500
Fit parameter 5 has pegged
6240.10 0 117.6 19.37 1.337 9.500
0.000 113.4 18.90 9.500
Fit parameter 5 has pegged
6239.87 0 117.6 19.37 1.337 9.500
0.000 113.4 18.90 9.500
Fit parameter 5 has pegged
6239.68 0 117.6 19.37 1.337 9.500
0.000 113.4 18.90 9.500
Fit parameter 5 has pegged
6239.53 0 117.6 19.37 1.336 9.500
0.000 113.4 18.90 9.500
Fit parameter 5 has pegged
6239.33 0 117.6 19.37 1.336 9.500
0.000 113.4 18.89 9.500
Fit parameter 5 has pegged
6239.15 0 117.6 19.37 1.336 9.500
0.000 113.4 18.89 9.500
Fit parameter 5 has pegged
6238.97 0 117.6 19.37 1.335 9.500
0.000 113.4 18.89 9.500
Fit parameter 5 has pegged
6238.83 0 117.6 19.37 1.335 9.500
0.000 113.5 18.88 9.500
Fit parameter 5 has pegged
6238.69 0 117.6 19.37 1.335 9.500
0.000 113.5 18.88 9.500
Fit parameter 5 has pegged
6238.55 0 117.6 19.37 1.335 9.500
0.000 113.5 18.88 9.500
Fit parameter 5 has pegged
6238.41 0 117.6 19.37 1.334 9.500
0.000 113.5 18.88 9.500
Fit parameter 5 has pegged
6238.30 0 117.6 19.37 1.334 9.500
0.000 113.5 18.88 9.500
Fit parameter 5 has pegged
6238.16 0 117.6 19.37 1.334 9.500
0.000 113.5 18.87 9.500
Fit parameter 5 has pegged
6238.04 0 117.6 19.37 1.334 9.500
0.000 113.5 18.87 9.500
Fit parameter 5 has pegged
6237.93 0 117.7 19.37 1.334 9.500
0.000 113.5 18.87 9.500
Fit parameter 5 has pegged
6237.80 0 117.7 19.37 1.333 9.500
0.000 113.5 18.87 9.500
Fit parameter 5 has pegged
6237.74 0 117.7 19.37 1.333 9.500
0.000 113.5 18.86 9.500
Fit parameter 5 has pegged
6237.63 0 117.7 19.37 1.333 9.500
0.000 113.5 18.86 9.500
Fit parameter 5 has pegged
6237.55 0 117.7 19.37 1.333 9.500
0.000 113.5 18.86 9.500
Fit parameter 5 has pegged
6237.45 0 117.7 19.37 1.333 9.500
0.000 113.5 18.86 9.500
Fit parameter 5 has pegged
6237.35 0 117.7 19.37 1.332 9.500
0.000 113.5 18.86 9.500
Fit parameter 5 has pegged
6237.28 0 117.7 19.37 1.332 9.500
0.000 113.5 18.85 9.500
Fit parameter 5 has pegged
6237.20 0 117.7 19.37 1.332 9.500
0.000 113.5 18.85 9.500
Fit parameter 5 has pegged
6237.12 0 117.7 19.37 1.332 9.500
0.000 113.6 18.85 9.500
Fit parameter 5 has pegged
6237.03 0 117.7 19.37 1.332 9.500
0.000 113.6 18.85 9.500
Fit parameter 5 has pegged
6236.96 0 117.7 19.37 1.332 9.500
0.000 113.6 18.84 9.500
Fit parameter 5 has pegged
6236.92 0 117.7 19.37 1.331 9.500
0.000 113.6 18.84 9.500
Fit parameter 5 has pegged
6236.85 0 117.7 19.37 1.331 9.500
0.000 113.6 18.84 9.500
Fit parameter 5 has pegged
6236.79 0 117.7 19.37 1.331 9.500
0.000 113.6 18.84 9.500
Fit parameter 5 has pegged
6236.74 0 117.7 19.37 1.331 9.500
0.000 113.6 18.84 9.500
Fit parameter 5 has pegged
6236.65 0 117.7 19.37 1.331 9.500
0.000 113.6 18.84 9.500
Fit parameter 5 has pegged
6236.62 0 117.7 19.37 1.331 9.500
0.000 113.6 18.83 9.500
Fit parameter 5 has pegged
6236.56 0 117.7 19.37 1.331 9.500
0.000 113.6 18.83 9.500
Fit parameter 5 has pegged
6236.50 0 117.7 19.37 1.330 9.500
0.000 113.6 18.83 9.500
Fit parameter 5 has pegged
6236.45 0 117.7 19.37 1.330 9.500
0.000 113.6 18.83 9.500
Fit parameter 5 has pegged
6236.41 0 117.7 19.37 1.330 9.500
0.000 113.6 18.83 9.500
Fit parameter 5 has pegged
6236.37 0 117.7 19.37 1.330 9.500
0.000 113.6 18.83 9.500
Fit parameter 5 has pegged
6236.34 0 117.7 19.37 1.330 9.500
0.000 113.6 18.83 9.500
Fit parameter 5 has pegged
6236.30 0 117.7 19.37 1.330 9.500
0.000 113.6 18.82 9.500
Fit parameter 5 has pegged
6236.25 0 117.7 19.37 1.330 9.500
0.000 113.6 18.82 9.500
Fit parameter 5 has pegged
6236.23 0 117.7 19.37 1.330 9.500
0.000 113.6 18.82 9.500
Fit parameter 5 has pegged
6236.18 0 117.7 19.37 1.329 9.500
0.000 113.6 18.82 9.500
Fit parameter 5 has pegged
6236.18 0 117.7 19.37 1.329 9.500
0.000 113.6 18.82 9.500
6236.09 0 117.7 19.37 1.329 9.500
0.000 113.7 18.82 9.500
Fit parameter 5 has pegged
6236.05 0 117.7 19.37 1.329 9.500
0.000 113.7 18.82 9.500
Fit parameter 5 has pegged
6236.03 0 117.7 19.37 1.329 9.500
0.000 113.7 18.82 9.500
Fit parameter 5 has pegged
6235.99 0 117.7 19.37 1.329 9.500
0.000 113.7 18.82 9.500
Fit parameter 5 has pegged
6235.94 0 117.7 19.37 1.329 9.500
0.000 113.7 18.81 9.500
Fit parameter 5 has pegged
6235.91 0 117.7 19.37 1.329 9.500
0.000 113.7 18.81 9.500
Fit parameter 5 has pegged
6235.90 0 117.7 19.37 1.329 9.500
0.000 113.7 18.81 9.500
Fit parameter 5 has pegged
6235.88 0 117.7 19.37 1.329 9.500
0.000 113.7 18.81 9.500
Fit parameter 5 has pegged
6235.85 0 117.8 19.37 1.329 9.500
0.000 113.7 18.81 9.500
Fit parameter 5 has pegged
6235.82 0 117.8 19.37 1.328 9.500
0.000 113.7 18.81 9.500
Fit parameter 5 has pegged
6235.81 0 117.8 19.37 1.328 9.500
0.000 113.7 18.81 9.500
6235.74 0 117.8 19.37 1.328 9.500
0.000 113.7 18.81 9.500
Fit parameter 5 has pegged
6235.74 1 117.8 19.37 1.328 9.500
0.000 113.7 18.81 9.500
6235.74 4 117.8 19.37 1.328 9.500
0.000 113.7 18.81 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
5.03E-05 | -0.01 0.00 -1.00 -0.01 0.00
3.16E-02 | 0.30 0.01 0.01 -0.91 -0.28
4.09E-02 | -0.95 -0.07 0.01 -0.27 -0.14
5.67E+00 | 0.07 -0.99 0.00 0.04 -0.08
3.94E-01 | 0.05 0.09 -0.01 0.30 -0.95
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 117.760 +/- 0.262846 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.36777 1
3 3 1 gaussian norm 1.32832 +/- 0.102470E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 113.684 +/- 0.270896 2
7 7 3 gaussian Sigma keV 18.8111 +/- 0.625087 2
8 3 3 gaussian norm 1.32832 = 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 = 6235.736 using 198 PHA bins.
Reduced chi-squared = 32.81966 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 ( 31.653) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 31.653) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.090 photons ( 2.1640E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.018 photons ( 1.9770E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:10:01 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.461 +/- 1.0761E-02
Net count rate (cts/s) for file 2 3.461 +/- 1.0761E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 153106.5 using 168 PHA bins.
Reduced chi-squared = 956.9159 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16081.73 using 168 PHA bins.
Reduced chi-squared = 100.5108 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5417.56 -3 85.72 14.94 0.1937 1.038
0.9050 85.46 14.61 1.026
1416.67 -4 67.60 18.43 0.3441 0.9682
0.8221 68.56 18.01 0.9719
890.258 0 71.66 15.57 0.3405 0.9695
0.8176 72.37 16.60 0.9717
532.848 -1 74.75 9.730 0.2582 0.9620
0.8422 75.80 9.011 0.9631
401.892 -2 73.91 9.686 0.2287 0.9488
0.8254 75.28 9.755 0.9497
395.337 -3 73.69 9.425 0.2245 0.9247
0.7461 75.07 9.720 0.9264
394.161 -4 73.59 9.436 0.2246 0.9166
0.7219 75.01 9.723 0.9177
394.125 -5 73.59 9.413 0.2243 0.9166
0.7215 75.01 9.712 0.9174
394.125 -6 73.59 9.420 0.2244 0.9165
0.7213 75.01 9.716 0.9173
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.42E-06 | 0.00 0.00 -0.22 0.64 -0.41 0.00 0.00 0.61
1.81E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.92E-05 | 0.00 0.01 -0.98 -0.14 0.10 0.00 0.01 -0.14
1.58E-03 | 0.04 0.00 -0.01 -0.31 -0.90 0.04 0.00 -0.29
5.51E-02 | -0.13 -0.73 0.00 0.00 0.00 0.10 0.66 0.00
1.24E-01 | 0.32 -0.57 -0.01 0.01 0.03 0.41 -0.64 0.01
7.81E-02 | 0.91 0.01 0.00 0.01 0.02 -0.33 0.24 0.01
8.28E-02 | 0.22 0.37 0.01 0.01 0.03 0.84 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 73.5882 +/- 0.287473 1
2 2 1 gaussian Sigma keV 9.41955 +/- 0.284767 1
3 3 1 gaussian norm 0.224385 +/- 0.608138E-02 1
4 4 2 powerlaw PhoIndex 0.916516 +/- 0.131070E-01 1
5 5 2 powerlaw norm 0.721273 +/- 0.386243E-01 1
6 6 3 gaussian LineE keV 75.0073 +/- 0.297686 2
7 7 3 gaussian Sigma keV 9.71612 +/- 0.294984 2
8 3 3 gaussian norm 0.224385 = par 3 2
9 8 4 powerlaw PhoIndex 0.917313 +/- 0.125705E-01 2
10 5 4 powerlaw norm 0.721273 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 394.1248 using 168 PHA bins.
Reduced chi-squared = 2.463280 for 160 degrees of freedom
Null hypothesis probability = 9.100E-22
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.360) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.360) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.385 photons ( 1.6533E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.381 photons ( 1.6535E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w20_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
63.41765
=====best line=====
73.5874 0.287353
=====best sigma=====
9.42065 0.284633
=====norm=====
0.224401 0.607879E-02
=====phoindx=====
0.916507 0.131058E-01
=====pow_norm=====
0.721239 0.386240E-01
=====best line=====
75.0072 0.297675
=====best sigma=====
9.71680 0.294927
=====norm=====
0.224401 par
=====phoindx=====
0.917305 0.125693E-01
=====pow_norm=====
0.721239 par
=====redu_chi=====
2.463280
=====area_flux=====
1.385
=====area_flux_f=====
1.381
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.476712 7.653752
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 8 1 640 2000 1177.3984 6.476712 0.224401 0.607879E-02 9.42065 0.284633 0.916507 0.131058E-01 0.721239 0.386240E-01 1.385 640 2000 1200.1152 7.653752 0.224401 0.607879E-02 9.71680 0.294927 0.917305 0.125693E-01 0.721239 0.386240E-01 1.381 2.463280 0
=====redu_chi=====
208.3620
=====best line=====
117.760 0.262846
=====best sigma=====
19.3655 2.36777
=====norm=====
1.32832 0.102470E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
113.684 0.270896
=====best sigma=====
18.8111 0.625087
=====norm=====
1.32832 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
32.81966
=====area_flux=====
1.090
=====area_flux_f=====
1.018
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.476712 7.653752
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 8 1 1600 3200 1884.16 6.476712 1.32832 0.102470E-01 309.848 37.88432 9.50000 -1.00000 0.00000 -1.00000 1.090 1600 3200 1818.944 7.653752 1.32832 0.102470E-01 300.9776 10.001392 9.50001 -1.00000 0.00000 -1.00000 1.018 32.81966 1
=====redu_chi=====
100.5108
=====best line=====
73.5882 0.287473
=====best sigma=====
9.41955 0.284767
=====norm=====
0.224385 0.608138E-02
=====phoindx=====
0.916516 0.131070E-01
=====pow_norm=====
0.721273 0.386243E-01
=====best line=====
75.0073 0.297686
=====best sigma=====
9.71612 0.294984
=====norm=====
0.224385 par
=====phoindx=====
0.917313 0.125705E-01
=====pow_norm=====
0.721273 par
=====redu_chi=====
2.463280
=====area_flux=====
1.385
=====area_flux_f=====
1.381
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.476712 7.653752
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 8 1 640 2000 1177.4112 6.476712 0.224385 0.608138E-02 9.41955 0.284767 0.916516 0.131070E-01 0.721273 0.386243E-01 1.385 640 2000 1200.1168 7.653752 0.224385 0.608138E-02 9.71612 0.294984 0.917313 0.125705E-01 0.721273 0.386243E-01 1.381 2.463280 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:10:02 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.243 +/- 1.0416E-02
Net count rate (cts/s) for file 2 3.243 +/- 1.0416E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 138839.5 using 168 PHA bins.
Reduced chi-squared = 867.7469 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 8830.457 using 168 PHA bins.
Reduced chi-squared = 55.19036 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
3198.87 -3 83.21 16.67 0.2445 1.029
0.8163 83.50 16.36 1.019
513.019 -3 74.35 9.467 0.1586 0.8645
0.5565 75.77 9.345 0.8704
436.131 -2 75.61 8.318 0.1684 0.8876
0.6070 76.98 9.400 0.8872
418.426 -2 75.35 8.921 0.1740 0.9036
0.6482 76.98 9.491 0.9031
409.751 -2 75.47 8.699 0.1722 0.9156
0.6844 77.08 9.405 0.9154
406.609 -3 75.61 8.821 0.1746 0.9499
0.7817 77.27 9.480 0.9488
396.805 -4 75.69 8.804 0.1749 0.9617
0.8308 77.35 9.473 0.9614
396.108 -5 75.69 8.825 0.1752 0.9618
0.8343 77.35 9.486 0.9620
396.107 -6 75.70 8.816 0.1750 0.9617
0.8344 77.36 9.480 0.9620
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.51E-06 | 0.00 0.00 -0.24 0.65 -0.36 0.00 0.00 0.62
1.86E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.61E-05 | 0.00 0.01 -0.97 -0.15 0.10 0.00 0.01 -0.16
2.15E-03 | 0.03 0.01 -0.01 -0.27 -0.92 0.03 0.01 -0.26
7.00E-02 | -0.15 -0.79 0.00 0.00 0.00 0.07 0.59 0.00
9.63E-02 | 0.96 -0.02 0.00 0.01 0.03 -0.16 0.23 0.01
1.50E-01 | -0.23 0.53 0.01 0.00 -0.01 -0.42 0.70 0.00
1.12E-01 | 0.08 0.31 0.00 0.01 0.03 0.89 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 75.6954 +/- 0.313788 1
2 2 1 gaussian Sigma keV 8.81574 +/- 0.310605 1
3 3 1 gaussian norm 0.175045 +/- 0.548531E-02 1
4 4 2 powerlaw PhoIndex 0.961735 +/- 0.134279E-01 1
5 5 2 powerlaw norm 0.834377 +/- 0.451355E-01 1
6 6 3 gaussian LineE keV 77.3550 +/- 0.344270 2
7 7 3 gaussian Sigma keV 9.47989 +/- 0.339858 2
8 3 3 gaussian norm 0.175045 = par 3 2
9 8 4 powerlaw PhoIndex 0.962014 +/- 0.128881E-01 2
10 5 4 powerlaw norm 0.834377 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 396.1072 using 168 PHA bins.
Reduced chi-squared = 2.475670 for 160 degrees of freedom
Null hypothesis probability = 5.004E-22
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.372) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.372) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.282 photons ( 1.5312E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.281 photons ( 1.5342E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:10:02 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.437 +/- 1.5774E-02
Net count rate (cts/s) for file 2 7.437 +/- 1.5774E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.194 +/- 1.8903E-02( 56.4% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.194 +/- 1.8903E-02( 56.4% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 2096181. using 198 PHA bins.
Reduced chi-squared = 11032.53 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 39010.82 using 198 PHA bins.
Reduced chi-squared = 205.3201 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
19692.4 -3 123.4 19.26 0.4552 2.867
0.2903 119.7 19.29 2.814
8710.20 -3 108.5 19.33 1.385 8.479
0.1246 105.3 19.34 8.962
7481.91 0 110.9 19.36 1.436 9.449
3.7647E-02 108.4 19.36 9.410
6987.68 0 112.4 19.36 1.446 9.483
2.0623E-03 110.3 19.36 9.494
6722.39 0 113.5 19.36 1.438 9.496
5.6094E-04 111.4 19.36 9.497
6550.34 0 114.3 19.37 1.424 9.500
8.0610E-05 112.3 19.36 9.499
6433.22 0 115.0 19.37 1.409 9.500
1.3862E-05 112.9 19.37 9.500
6352.06 0 115.5 19.37 1.395 9.500
5.2533E-06 113.3 19.37 9.500
6294.86 0 116.0 19.37 1.383 9.500
8.1671E-07 113.7 19.37 9.500
6256.44 0 116.3 19.37 1.373 9.500
2.5569E-07 113.9 19.37 9.500
6230.08 0 116.6 19.37 1.364 9.500
1.1346E-07 114.1 19.37 9.500
6177.48 0 117.2 19.37 1.344 9.500
3.2600E-10 114.4 19.37 9.500
6163.67 0 117.3 19.37 1.340 9.500
1.2556E-10 114.4 19.37 9.500
6155.30 0 117.4 19.37 1.337 9.500
2.5869E-11 114.4 19.37 9.500
6150.34 0 117.5 19.37 1.335 9.500
9.5153E-13 114.4 19.37 9.500
6147.08 0 117.5 19.37 1.333 9.500
1.6817E-13 114.5 19.37 9.500
Fit parameter 5 has pegged
6103.37 0 117.5 19.37 1.324 9.500
0.000 114.2 19.02 9.500
Fit parameter 5 has pegged
6098.68 0 117.5 19.37 1.320 9.500
0.000 114.1 19.04 9.500
Fit parameter 5 has pegged
6096.39 0 117.5 19.37 1.318 9.500
0.000 114.1 19.05 9.500
Fit parameter 5 has pegged
6095.47 0 117.5 19.37 1.317 9.500
0.000 114.1 19.05 9.500
Fit parameter 5 has pegged
6094.57 0 117.5 19.37 1.317 9.500
0.000 114.1 19.05 9.500
Fit parameter 5 has pegged
6093.76 0 117.5 19.37 1.316 9.500
0.000 114.1 19.05 9.500
Fit parameter 5 has pegged
6093.58 0 117.5 19.37 1.316 9.500
0.000 114.1 19.05 9.500
Fit parameter 5 has pegged
6093.18 0 117.5 19.37 1.316 9.500
0.000 114.1 19.05 9.500
Fit parameter 5 has pegged
6089.29 0 117.6 19.37 1.314 9.500
0.000 114.1 19.05 9.500
Fit parameter 5 has pegged
6085.71 0 117.7 19.37 1.313 9.500
0.000 114.1 19.05 9.500
Fit parameter 5 has pegged
6082.46 0 117.7 19.37 1.311 9.500
0.000 114.1 19.05 9.500
Fit parameter 5 has pegged
6079.48 0 117.8 19.37 1.310 9.500
0.000 114.1 19.04 9.500
Fit parameter 5 has pegged
6076.77 0 117.8 19.37 1.309 9.500
0.000 114.1 19.04 9.500
Fit parameter 5 has pegged
6074.31 0 117.9 19.37 1.307 9.500
0.000 114.2 19.04 9.500
Fit parameter 5 has pegged
6072.03 0 117.9 19.37 1.306 9.500
0.000 114.2 19.04 9.500
Fit parameter 5 has pegged
6069.92 0 118.0 19.37 1.305 9.500
0.000 114.2 19.04 9.500
Fit parameter 5 has pegged
6068.00 0 118.0 19.37 1.304 9.500
0.000 114.2 19.04 9.500
Fit parameter 5 has pegged
6066.25 0 118.1 19.37 1.303 9.500
0.000 114.2 19.03 9.500
Fit parameter 5 has pegged
6064.60 0 118.1 19.37 1.302 9.500
0.000 114.2 19.03 9.500
Fit parameter 5 has pegged
6063.11 0 118.1 19.37 1.301 9.500
0.000 114.2 19.03 9.500
Fit parameter 5 has pegged
6061.73 0 118.2 19.37 1.300 9.500
0.000 114.2 19.03 9.500
Fit parameter 5 has pegged
6060.43 0 118.2 19.37 1.299 9.500
0.000 114.2 19.02 9.500
Fit parameter 5 has pegged
6059.25 0 118.2 19.37 1.299 9.500
0.000 114.2 19.02 9.500
Fit parameter 5 has pegged
6058.13 0 118.3 19.37 1.298 9.500
0.000 114.2 19.02 9.500
Fit parameter 5 has pegged
6057.09 0 118.3 19.37 1.297 9.500
0.000 114.2 19.01 9.500
Fit parameter 5 has pegged
6056.11 0 118.3 19.37 1.296 9.500
0.000 114.3 19.01 9.500
Fit parameter 5 has pegged
6055.22 0 118.3 19.37 1.296 9.500
0.000 114.3 19.01 9.500
Fit parameter 5 has pegged
6054.41 0 118.4 19.37 1.295 9.500
0.000 114.3 19.00 9.500
Fit parameter 5 has pegged
6053.64 0 118.4 19.37 1.294 9.500
0.000 114.3 19.00 9.500
Fit parameter 5 has pegged
6052.92 0 118.4 19.37 1.294 9.500
0.000 114.3 18.99 9.500
Fit parameter 5 has pegged
6052.24 0 118.4 19.37 1.293 9.500
0.000 114.3 18.99 9.500
Fit parameter 5 has pegged
6051.57 0 118.4 19.37 1.293 9.500
0.000 114.3 18.99 9.500
Fit parameter 5 has pegged
6051.00 0 118.5 19.37 1.292 9.500
0.000 114.3 18.98 9.500
Fit parameter 5 has pegged
6050.44 0 118.5 19.37 1.292 9.500
0.000 114.3 18.98 9.500
Fit parameter 5 has pegged
6049.94 0 118.5 19.37 1.291 9.500
0.000 114.3 18.98 9.500
Fit parameter 5 has pegged
6049.44 0 118.5 19.37 1.291 9.500
0.000 114.3 18.97 9.500
Fit parameter 5 has pegged
6048.98 0 118.5 19.37 1.290 9.500
0.000 114.4 18.97 9.500
Fit parameter 5 has pegged
6048.53 0 118.5 19.37 1.290 9.500
0.000 114.4 18.97 9.500
Fit parameter 5 has pegged
6048.14 0 118.6 19.37 1.289 9.500
0.000 114.4 18.96 9.500
Fit parameter 5 has pegged
6047.73 0 118.6 19.37 1.289 9.500
0.000 114.4 18.96 9.500
Fit parameter 5 has pegged
6047.38 0 118.6 19.37 1.289 9.500
0.000 114.4 18.96 9.500
Fit parameter 5 has pegged
6047.01 0 118.6 19.37 1.288 9.500
0.000 114.4 18.95 9.500
Fit parameter 5 has pegged
6046.69 0 118.6 19.37 1.288 9.500
0.000 114.4 18.95 9.500
Fit parameter 5 has pegged
6046.37 0 118.6 19.37 1.288 9.500
0.000 114.4 18.95 9.500
Fit parameter 5 has pegged
6046.07 0 118.6 19.37 1.287 9.500
0.000 114.4 18.94 9.500
Fit parameter 5 has pegged
6045.81 0 118.6 19.37 1.287 9.500
0.000 114.4 18.94 9.500
Fit parameter 5 has pegged
6045.53 0 118.7 19.37 1.287 9.500
0.000 114.4 18.94 9.500
Fit parameter 5 has pegged
6045.29 0 118.7 19.37 1.286 9.500
0.000 114.4 18.93 9.500
Fit parameter 5 has pegged
6045.07 0 118.7 19.37 1.286 9.500
0.000 114.5 18.93 9.500
Fit parameter 5 has pegged
6044.81 0 118.7 19.37 1.286 9.500
0.000 114.5 18.93 9.500
Fit parameter 5 has pegged
6044.63 0 118.7 19.37 1.285 9.500
0.000 114.5 18.92 9.500
Fit parameter 5 has pegged
6044.41 0 118.7 19.37 1.285 9.500
0.000 114.5 18.92 9.500
Fit parameter 5 has pegged
6044.19 0 118.7 19.37 1.285 9.500
0.000 114.5 18.92 9.500
Fit parameter 5 has pegged
6044.01 0 118.7 19.37 1.285 9.500
0.000 114.5 18.91 9.500
Fit parameter 5 has pegged
6043.84 0 118.7 19.37 1.284 9.500
0.000 114.5 18.91 9.500
Fit parameter 5 has pegged
6043.68 0 118.7 19.37 1.284 9.500
0.000 114.5 18.91 9.500
Fit parameter 5 has pegged
6043.49 0 118.7 19.37 1.284 9.500
0.000 114.5 18.91 9.500
Fit parameter 5 has pegged
6043.34 0 118.7 19.37 1.284 9.500
0.000 114.5 18.90 9.500
Fit parameter 5 has pegged
6043.19 0 118.7 19.37 1.283 9.500
0.000 114.5 18.90 9.500
Fit parameter 5 has pegged
6043.07 0 118.8 19.37 1.283 9.500
0.000 114.5 18.90 9.500
Fit parameter 5 has pegged
6042.93 0 118.8 19.37 1.283 9.500
0.000 114.5 18.90 9.500
Fit parameter 5 has pegged
6042.79 0 118.8 19.37 1.283 9.500
0.000 114.5 18.89 9.500
Fit parameter 5 has pegged
6042.70 0 118.8 19.37 1.282 9.500
0.000 114.6 18.89 9.500
Fit parameter 5 has pegged
6042.58 0 118.8 19.37 1.282 9.500
0.000 114.6 18.89 9.500
Fit parameter 5 has pegged
6042.43 0 118.8 19.37 1.282 9.500
0.000 114.6 18.89 9.500
Fit parameter 5 has pegged
6042.32 0 118.8 19.37 1.282 9.500
0.000 114.6 18.88 9.500
Fit parameter 5 has pegged
6042.25 0 118.8 19.37 1.282 9.500
0.000 114.6 18.88 9.500
Fit parameter 5 has pegged
6042.15 0 118.8 19.37 1.282 9.500
0.000 114.6 18.88 9.500
Fit parameter 5 has pegged
6042.04 0 118.8 19.37 1.281 9.500
0.000 114.6 18.88 9.500
Fit parameter 5 has pegged
6041.96 0 118.8 19.37 1.281 9.500
0.000 114.6 18.88 9.500
Fit parameter 5 has pegged
6041.87 0 118.8 19.37 1.281 9.500
0.000 114.6 18.87 9.500
Fit parameter 5 has pegged
6041.77 0 118.8 19.37 1.281 9.500
0.000 114.6 18.87 9.500
Fit parameter 5 has pegged
6041.70 0 118.8 19.37 1.281 9.500
0.000 114.6 18.87 9.500
Fit parameter 5 has pegged
6041.63 0 118.8 19.37 1.281 9.500
0.000 114.6 18.87 9.500
Fit parameter 5 has pegged
6041.53 0 118.8 19.37 1.280 9.500
0.000 114.6 18.87 9.500
Fit parameter 5 has pegged
6041.48 0 118.8 19.37 1.280 9.500
0.000 114.6 18.86 9.500
Fit parameter 5 has pegged
6041.41 0 118.8 19.37 1.280 9.500
0.000 114.6 18.86 9.500
Fit parameter 5 has pegged
6041.34 0 118.8 19.37 1.280 9.500
0.000 114.6 18.86 9.500
Fit parameter 5 has pegged
6041.31 0 118.8 19.37 1.280 9.500
0.000 114.6 18.86 9.500
Fit parameter 5 has pegged
6041.23 0 118.8 19.37 1.280 9.500
0.000 114.6 18.86 9.500
Fit parameter 5 has pegged
6041.16 0 118.8 19.37 1.280 9.500
0.000 114.6 18.86 9.500
Fit parameter 5 has pegged
6041.13 0 118.8 19.37 1.279 9.500
0.000 114.7 18.85 9.500
Fit parameter 5 has pegged
6041.06 0 118.8 19.37 1.279 9.500
0.000 114.7 18.85 9.500
Fit parameter 5 has pegged
6041.04 0 118.8 19.37 1.279 9.500
0.000 114.7 18.85 9.500
Fit parameter 5 has pegged
6040.98 0 118.8 19.37 1.279 9.500
0.000 114.7 18.85 9.500
Fit parameter 5 has pegged
6040.93 0 118.8 19.37 1.279 9.500
0.000 114.7 18.85 9.500
Fit parameter 5 has pegged
6040.89 0 118.8 19.37 1.279 9.500
0.000 114.7 18.85 9.500
Fit parameter 5 has pegged
6040.85 0 118.8 19.37 1.279 9.500
0.000 114.7 18.84 9.500
Fit parameter 5 has pegged
6040.80 0 118.8 19.37 1.279 9.500
0.000 114.7 18.84 9.500
Fit parameter 5 has pegged
6040.76 0 118.8 19.37 1.279 9.500
0.000 114.7 18.84 9.500
Fit parameter 5 has pegged
6040.73 0 118.9 19.37 1.279 9.500
0.000 114.7 18.84 9.500
Fit parameter 5 has pegged
6040.69 0 118.9 19.37 1.278 9.500
0.000 114.7 18.84 9.500
Fit parameter 5 has pegged
6040.66 0 118.9 19.37 1.278 9.500
0.000 114.7 18.84 9.500
Fit parameter 5 has pegged
6040.62 0 118.9 19.37 1.278 9.500
0.000 114.7 18.84 9.500
Fit parameter 5 has pegged
6040.58 0 118.9 19.37 1.278 9.500
0.000 114.7 18.84 9.500
Fit parameter 5 has pegged
6040.56 0 118.9 19.37 1.278 9.500
0.000 114.7 18.83 9.500
Fit parameter 5 has pegged
6040.53 0 118.9 19.37 1.278 9.500
0.000 114.7 18.83 9.500
Fit parameter 5 has pegged
6040.49 0 118.9 19.37 1.278 9.500
0.000 114.7 18.83 9.500
Fit parameter 5 has pegged
6040.46 0 118.9 19.37 1.278 9.500
0.000 114.7 18.83 9.500
Fit parameter 5 has pegged
6040.45 0 118.9 19.37 1.278 9.500
0.000 114.7 18.83 9.500
Fit parameter 5 has pegged
6040.41 0 118.9 19.37 1.278 9.500
0.000 114.7 18.83 9.500
Fit parameter 5 has pegged
6040.39 0 118.9 19.37 1.278 9.500
0.000 114.7 18.83 9.500
Fit parameter 5 has pegged
6040.36 0 118.9 19.37 1.278 9.500
0.000 114.7 18.83 9.500
Fit parameter 5 has pegged
6040.35 0 118.9 19.37 1.278 9.500
0.000 114.7 18.83 9.500
6040.29 0 118.9 19.37 1.278 9.500
0.000 114.7 18.83 9.500
Fit parameter 5 has pegged
6040.28 0 118.9 19.37 1.277 9.500
0.000 114.7 18.83 9.500
6040.25 0 118.9 19.37 1.277 9.500
0.000 114.7 18.83 9.500
Fit parameter 5 has pegged
6040.25 0 118.9 19.37 1.277 9.500
0.000 114.7 18.83 9.500
6040.20 0 118.9 19.37 1.277 9.500
0.000 114.8 18.83 9.500
Fit parameter 5 has pegged
6040.20 0 118.9 19.37 1.277 9.500
0.000 114.8 18.83 9.500
6040.15 0 118.9 19.37 1.277 9.500
0.000 114.8 18.83 9.500
Fit parameter 5 has pegged
6040.13 0 118.9 19.37 1.277 9.500
0.000 114.8 18.82 9.500
Fit parameter 5 has pegged
6040.11 0 118.9 19.37 1.277 9.500
0.000 114.8 18.82 9.500
Fit parameter 5 has pegged
6040.08 0 118.9 19.37 1.277 9.500
0.000 114.8 18.82 9.500
Fit parameter 5 has pegged
6040.07 0 118.9 19.37 1.277 9.500
0.000 114.8 18.82 9.500
Fit parameter 5 has pegged
6040.07 0 118.9 19.37 1.277 9.500
0.000 114.8 18.82 9.500
6040.04 0 118.9 19.37 1.277 9.500
0.000 114.8 18.82 9.500
Fit parameter 5 has pegged
6040.02 0 118.9 19.37 1.277 9.500
0.000 114.8 18.82 9.500
Fit parameter 5 has pegged
6040.01 0 118.9 19.37 1.277 9.500
0.000 114.8 18.81 9.500
Fit parameter 5 has pegged
6040.00 0 118.9 19.37 1.277 9.500
0.000 114.8 18.81 9.500
Fit parameter 5 has pegged
6039.99 0 118.9 19.37 1.277 9.500
0.000 114.8 18.81 9.500
6039.97 0 118.9 19.37 1.277 9.500
0.000 114.8 18.82 9.500
Fit parameter 5 has pegged
6039.96 1 118.9 19.37 1.277 9.500
0.000 114.8 18.82 9.500
6039.95 4 118.9 19.37 1.277 9.500
0.000 114.8 18.82 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.67E-05 | -0.01 0.00 -1.00 -0.01 0.00
3.18E-02 | 0.25 0.00 0.01 -0.93 -0.27
4.18E-02 | -0.97 -0.06 0.01 -0.22 -0.12
6.15E+00 | 0.06 -1.00 0.00 0.03 -0.07
4.04E-01 | 0.04 0.08 -0.01 0.29 -0.95
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 118.897 +/- 0.254309 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.46840 1
3 3 1 gaussian norm 1.27651 +/- 0.961166E-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 114.774 +/- 0.264655 2
7 7 3 gaussian Sigma keV 18.8183 +/- 0.632721 2
8 3 3 gaussian norm 1.27651 = 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 = 6039.954 using 198 PHA bins.
Reduced chi-squared = 31.78923 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 ( 30.660) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 30.660) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.066 photons ( 2.1294E-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 ( 1.9525E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:10:03 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.243 +/- 1.0416E-02
Net count rate (cts/s) for file 2 3.243 +/- 1.0416E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 172433.7 using 168 PHA bins.
Reduced chi-squared = 1077.710 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 14086.96 using 168 PHA bins.
Reduced chi-squared = 88.04347 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
4863.37 -3 85.87 14.41 0.1666 1.040
0.8559 86.00 13.73 1.028
1054.13 -4 70.96 17.03 0.2222 0.9381
0.7455 73.13 15.99 0.9422
694.414 -1 78.17 6.249 0.1663 0.9407
0.7551 78.47 8.666 0.9393
412.211 -2 76.74 8.649 0.1688 0.9460
0.7830 77.41 9.420 0.9461
397.395 -3 75.64 9.065 0.1766 0.9586
0.8196 77.31 9.554 0.9584
396.352 -4 75.74 8.708 0.1738 0.9617
0.8346 77.37 9.425 0.9619
396.154 -5 75.67 8.870 0.1757 0.9618
0.8341 77.35 9.512 0.9621
396.118 -6 75.70 8.794 0.1748 0.9617
0.8345 77.36 9.466 0.9620
396.110 -7 75.69 8.830 0.1752 0.9617
0.8343 77.35 9.489 0.9620
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.51E-06 | 0.00 0.00 -0.24 0.65 -0.36 0.00 0.00 0.62
1.86E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.60E-05 | 0.00 0.01 -0.97 -0.15 0.10 0.00 0.01 -0.16
2.14E-03 | 0.03 0.01 -0.01 -0.27 -0.92 0.03 0.01 -0.26
6.97E-02 | -0.15 -0.79 0.00 0.00 0.00 0.07 0.59 0.00
9.58E-02 | 0.96 -0.02 0.00 0.01 0.03 -0.16 0.23 0.01
1.50E-01 | -0.22 0.53 0.01 0.00 -0.01 -0.43 0.70 0.00
1.12E-01 | 0.07 0.31 0.00 0.01 0.03 0.89 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 75.6893 +/- 0.312833 1
2 2 1 gaussian Sigma keV 8.83049 +/- 0.309551 1
3 3 1 gaussian norm 0.175222 +/- 0.546873E-02 1
4 4 2 powerlaw PhoIndex 0.961740 +/- 0.134164E-01 1
5 5 2 powerlaw norm 0.834274 +/- 0.451079E-01 1
6 6 3 gaussian LineE keV 77.3524 +/- 0.343945 2
7 7 3 gaussian Sigma keV 9.48927 +/- 0.339324 2
8 3 3 gaussian norm 0.175222 = par 3 2
9 8 4 powerlaw PhoIndex 0.962021 +/- 0.128771E-01 2
10 5 4 powerlaw norm 0.834274 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 396.1097 using 168 PHA bins.
Reduced chi-squared = 2.475686 for 160 degrees of freedom
Null hypothesis probability = 5.000E-22
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.372) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.372) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.282 photons ( 1.5312E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.281 photons ( 1.5342E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w21_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
55.19036
=====best line=====
75.6954 0.313788
=====best sigma=====
8.81574 0.310605
=====norm=====
0.175045 0.548531E-02
=====phoindx=====
0.961735 0.134279E-01
=====pow_norm=====
0.834377 0.451355E-01
=====best line=====
77.3550 0.344270
=====best sigma=====
9.47989 0.339858
=====norm=====
0.175045 par
=====phoindx=====
0.962014 0.128881E-01
=====pow_norm=====
0.834377 par
=====redu_chi=====
2.475670
=====area_flux=====
1.282
=====area_flux_f=====
1.281
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.476712 7.653752
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 9 1 640 2000 1211.1264 6.476712 0.175045 0.548531E-02 8.81574 0.310605 0.961735 0.134279E-01 0.834377 0.451355E-01 1.282 640 2000 1237.68 7.653752 0.175045 0.548531E-02 9.47989 0.339858 0.962014 0.128881E-01 0.834377 0.451355E-01 1.281 2.475670 0
=====redu_chi=====
205.3201
=====best line=====
118.897 0.254309
=====best sigma=====
19.3655 2.46840
=====norm=====
1.27651 0.961166E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
114.774 0.264655
=====best sigma=====
18.8183 0.632721
=====norm=====
1.27651 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
31.78923
=====area_flux=====
1.066
=====area_flux_f=====
1.000
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.476712 7.653752
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 9 1 1600 3200 1902.352 6.476712 1.27651 0.961166E-02 309.848 39.4944 9.50000 -1.00000 0.00000 -1.00000 1.066 1600 3200 1836.384 7.653752 1.27651 0.961166E-02 301.0928 10.123536 9.50000 -1.00000 0.00000 -1.00000 1.000 31.78923 1
=====redu_chi=====
88.04347
=====best line=====
75.6893 0.312833
=====best sigma=====
8.83049 0.309551
=====norm=====
0.175222 0.546873E-02
=====phoindx=====
0.961740 0.134164E-01
=====pow_norm=====
0.834274 0.451079E-01
=====best line=====
77.3524 0.343945
=====best sigma=====
9.48927 0.339324
=====norm=====
0.175222 par
=====phoindx=====
0.962021 0.128771E-01
=====pow_norm=====
0.834274 par
=====redu_chi=====
2.475686
=====area_flux=====
1.282
=====area_flux_f=====
1.281
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.476712 7.653752
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 9 1 640 2000 1211.0288 6.476712 0.175222 0.546873E-02 8.83049 0.309551 0.961740 0.134164E-01 0.834274 0.451079E-01 1.282 640 2000 1237.6384 7.653752 0.175222 0.546873E-02 9.48927 0.339324 0.962021 0.128771E-01 0.834274 0.451079E-01 1.281 2.475686 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:10:03 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.268 +/- 1.0456E-02
Net count rate (cts/s) for file 2 3.268 +/- 1.0456E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 157624.0 using 168 PHA bins.
Reduced chi-squared = 985.1498 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 10516.16 using 168 PHA bins.
Reduced chi-squared = 65.72601 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
7867.54 -3 81.50 16.57 0.2407 1.129
0.9545 81.39 16.61 1.116
2315.04 -4 72.73 6.318 0.1080 0.7839
0.3663 72.03 6.400 0.8013
1394.28 -2 74.27 14.11 0.1936 0.8566
0.4801 74.67 15.69 0.8540
912.714 -2 74.76 8.506 0.1514 0.8970
0.6024 73.22 6.760 0.8962
545.270 -2 75.04 9.536 0.2014 0.9436
0.7143 74.83 9.975 0.9423
467.183 -2 75.20 9.207 0.2056 0.9808
0.8376 75.29 9.726 0.9802
415.077 -2 75.32 9.275 0.2064 1.010
0.9532 75.44 9.409 1.009
384.415 -2 75.45 9.260 0.2067 1.033
1.055 75.58 9.426 1.033
366.308 -2 75.54 9.265 0.2071 1.051
1.143 75.68 9.415 1.051
355.515 -2 75.61 9.273 0.2075 1.065
1.217 75.75 9.416 1.065
354.047 -3 75.80 9.299 0.2091 1.104
1.416 75.94 9.439 1.104
339.807 -4 75.86 9.329 0.2100 1.118
1.518 76.01 9.455 1.118
338.885 -5 75.87 9.331 0.2101 1.117
1.525 76.01 9.456 1.118
338.884 -6 75.87 9.331 0.2101 1.117
1.525 76.01 9.456 1.118
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.82E-06 | 0.00 0.00 -0.27 0.68 -0.21 0.00 0.00 0.65
2.04E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.68E-05 | 0.00 0.01 -0.96 -0.18 0.06 0.00 0.01 -0.18
6.79E-03 | 0.07 0.02 -0.01 -0.16 -0.97 0.07 0.02 -0.15
5.29E-02 | -0.15 -0.71 0.00 0.00 0.00 0.14 0.67 0.00
1.14E-01 | 0.35 -0.59 -0.01 0.00 0.03 0.38 -0.62 0.00
7.64E-02 | 0.85 -0.05 0.00 0.01 0.03 -0.47 0.23 0.01
7.80E-02 | 0.37 0.39 0.01 0.02 0.10 0.78 0.32 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 75.8684 +/- 0.283152 1
2 2 1 gaussian Sigma keV 9.33130 +/- 0.278923 1
3 3 1 gaussian norm 0.210117 +/- 0.557025E-02 1
4 4 2 powerlaw PhoIndex 1.11742 +/- 0.139626E-01 1
5 5 2 powerlaw norm 1.52488 +/- 0.852668E-01 1
6 6 3 gaussian LineE keV 76.0096 +/- 0.286247 2
7 7 3 gaussian Sigma keV 9.45608 +/- 0.283426 2
8 3 3 gaussian norm 0.210117 = par 3 2
9 8 4 powerlaw PhoIndex 1.11836 +/- 0.133939E-01 2
10 5 4 powerlaw norm 1.52488 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 338.8840 using 168 PHA bins.
Reduced chi-squared = 2.118025 for 160 degrees of freedom
Null hypothesis probability = 6.636E-15
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.029) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.029) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.254 photons ( 1.4795E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.250 photons ( 1.4750E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:10:04 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.663 +/- 1.6012E-02
Net count rate (cts/s) for file 2 7.663 +/- 1.6012E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.395 +/- 1.9124E-02( 57.4% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.395 +/- 1.9124E-02( 57.4% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 1965086. using 198 PHA bins.
Reduced chi-squared = 10342.56 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 39260.77 using 198 PHA bins.
Reduced chi-squared = 206.6356 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
20235.4 -3 122.0 19.11 0.4345 2.931
0.3284 120.3 19.14 2.873
9291.66 -2 109.5 19.29 1.387 6.616
0.1293 104.3 19.29 8.544
8245.98 0 111.3 19.33 1.420 9.478
6.2144E-02 107.3 19.33 9.336
7711.08 0 112.5 19.36 1.424 9.494
1.9289E-02 109.3 19.35 9.443
7369.09 0 113.5 19.37 1.415 9.498
8.4917E-03 110.7 19.37 9.491
7133.51 0 114.2 19.37 1.401 9.499
5.7030E-04 111.8 19.37 9.496
6958.61 0 114.9 19.37 1.385 9.500
9.0738E-05 112.5 19.37 9.499
6829.08 0 115.4 19.37 1.371 9.500
2.4438E-05 113.1 19.37 9.500
6731.70 0 115.9 19.37 1.357 9.500
7.1580E-06 113.6 19.37 9.500
6658.86 0 116.3 19.37 1.346 9.500
2.6875E-06 114.0 19.37 9.500
6605.50 0 116.6 19.37 1.336 9.500
3.8938E-07 114.3 19.37 9.500
6567.48 0 116.9 19.37 1.328 9.500
9.9032E-08 114.5 19.37 9.500
6495.35 0 117.4 19.37 1.309 9.500
3.3836E-10 114.9 19.37 9.500
6479.58 0 117.5 19.37 1.305 9.500
1.2983E-10 114.9 19.37 9.500
6469.21 0 117.6 19.37 1.302 9.500
2.5085E-11 115.0 19.37 9.500
6461.77 0 117.7 19.37 1.300 9.500
1.2035E-11 115.0 19.37 9.500
6455.76 0 117.8 19.37 1.298 9.500
5.4571E-12 115.0 19.37 9.500
6451.74 0 117.8 19.37 1.297 9.500
2.1678E-12 115.1 19.37 9.500
6448.51 0 117.8 19.37 1.296 9.500
5.2121E-13 115.1 19.37 9.500
Fit parameter 5 has pegged
6431.32 0 117.8 19.37 1.288 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
6427.61 0 117.8 19.37 1.285 9.500
0.000 114.7 19.37 9.500
Fit parameter 5 has pegged
6421.21 0 117.9 19.37 1.282 9.500
0.000 114.7 19.37 9.500
Fit parameter 5 has pegged
6415.41 0 117.9 19.37 1.280 9.500
0.000 114.7 19.37 9.500
Fit parameter 5 has pegged
6410.15 0 118.0 19.37 1.278 9.500
0.000 114.7 19.37 9.500
Fit parameter 5 has pegged
6405.34 0 118.0 19.37 1.276 9.500
0.000 114.7 19.37 9.500
Fit parameter 5 has pegged
6400.97 0 118.1 19.37 1.274 9.500
0.000 114.7 19.37 9.500
Fit parameter 5 has pegged
6397.01 0 118.1 19.37 1.272 9.500
0.000 114.7 19.37 9.500
Fit parameter 5 has pegged
6393.37 0 118.2 19.37 1.270 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
6390.00 0 118.2 19.37 1.268 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
6386.95 0 118.3 19.37 1.267 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
6384.17 0 118.3 19.37 1.266 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
6381.56 0 118.4 19.37 1.264 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
6379.18 0 118.4 19.37 1.263 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
6376.99 0 118.5 19.37 1.262 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
6374.97 0 118.5 19.37 1.261 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
6373.09 0 118.5 19.37 1.260 9.500
0.000 114.8 19.37 9.500
Fit parameter 5 has pegged
6371.41 0 118.6 19.37 1.259 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
6369.80 0 118.6 19.37 1.258 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
6368.35 0 118.6 19.37 1.257 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
6367.00 0 118.7 19.37 1.256 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
6365.73 0 118.7 19.37 1.255 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
6364.59 0 118.7 19.37 1.254 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
6363.51 0 118.8 19.37 1.254 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
6362.54 0 118.8 19.37 1.253 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
6361.61 0 118.8 19.37 1.252 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
6360.76 0 118.8 19.37 1.252 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
6359.98 0 118.9 19.37 1.251 9.500
0.000 114.9 19.37 9.500
Fit parameter 5 has pegged
6359.27 0 118.9 19.37 1.250 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6358.59 0 118.9 19.37 1.250 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6357.96 0 118.9 19.37 1.249 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6357.37 0 118.9 19.37 1.249 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6356.83 0 119.0 19.37 1.248 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6356.33 0 119.0 19.37 1.248 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6355.86 0 119.0 19.37 1.247 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6355.42 0 119.0 19.37 1.247 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6355.01 0 119.0 19.37 1.247 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6354.63 0 119.0 19.37 1.246 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6354.27 0 119.1 19.37 1.246 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6353.95 0 119.1 19.37 1.246 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6353.65 0 119.1 19.37 1.245 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6353.37 0 119.1 19.37 1.245 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6353.10 0 119.1 19.37 1.245 9.500
0.000 115.0 19.37 9.500
Fit parameter 5 has pegged
6352.86 0 119.1 19.37 1.244 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6352.62 0 119.1 19.37 1.244 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6352.40 0 119.1 19.37 1.244 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6352.22 0 119.2 19.37 1.244 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6351.99 0 119.2 19.37 1.243 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6351.84 0 119.2 19.37 1.243 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6351.68 0 119.2 19.37 1.243 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6351.53 0 119.2 19.37 1.243 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6351.38 0 119.2 19.37 1.243 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6351.23 0 119.2 19.37 1.242 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6351.10 0 119.2 19.37 1.242 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.99 0 119.2 19.37 1.242 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.86 0 119.2 19.37 1.242 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.78 0 119.2 19.37 1.242 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.65 0 119.2 19.37 1.242 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.56 0 119.2 19.37 1.241 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.51 0 119.2 19.37 1.241 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.42 0 119.3 19.37 1.241 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.32 0 119.3 19.37 1.241 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.26 0 119.3 19.37 1.241 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.17 0 119.3 19.37 1.241 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.13 0 119.3 19.37 1.241 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.04 0 119.3 19.37 1.241 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6350.00 0 119.3 19.37 1.241 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.96 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.90 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.85 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.79 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.75 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.71 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.66 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.63 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.60 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.57 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.55 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.49 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.47 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.44 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.42 0 119.3 19.37 1.240 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.40 0 119.3 19.37 1.239 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.37 0 119.3 19.37 1.239 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.35 0 119.3 19.37 1.239 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.33 0 119.3 19.37 1.239 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.31 0 119.3 19.37 1.239 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.27 0 119.3 19.37 1.239 9.500
0.000 115.1 19.37 9.500
Fit parameter 5 has pegged
6349.26 3 119.3 19.37 1.239 9.500
0.000 115.1 19.37 9.500
6349.26 4 119.3 19.37 1.239 9.500
0.000 115.1 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.37E-05 | -0.01 0.00 -1.00 -0.01 0.00
3.68E-02 | 0.48 0.01 0.00 -0.87 -0.06
4.40E-02 | -0.87 -0.05 0.01 -0.48 -0.05
7.90E+00 | -0.05 0.84 0.00 -0.05 0.54
4.28E+00 | 0.02 -0.54 0.00 -0.06 0.84
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 119.325 +/- 0.249929 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.61253 1
3 3 1 gaussian norm 1.23927 +/- 0.943949E-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 115.139 +/- 0.273067 2
7 7 3 gaussian Sigma keV 19.3655 +/- 2.30208 2
8 3 3 gaussian norm 1.23927 = 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 = 6349.260 using 198 PHA bins.
Reduced chi-squared = 33.41716 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 32.230) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 32.230) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 1.042 photons ( 2.0852E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 0.9700 photons ( 1.9025E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:10:05 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.268 +/- 1.0456E-02
Net count rate (cts/s) for file 2 3.268 +/- 1.0456E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 192677.8 using 168 PHA bins.
Reduced chi-squared = 1204.236 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 15457.70 using 168 PHA bins.
Reduced chi-squared = 96.61062 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2445.91 -2 84.79 13.62 0.1373 0.9120
0.6462 84.70 13.59 0.9056
1851.60 -3 65.56 15.40 0.2160 1.005
0.8784 65.43 15.22 1.002
1200.09 -2 79.54 15.54 0.2437 1.039
1.024 78.34 15.87 1.038
854.265 -3 75.10 7.673 0.1118 1.008
1.048 74.96 7.012 1.009
841.840 -4 75.77 13.63 0.2055 1.097
1.348 76.14 14.38 1.095
663.587 -5 77.95 8.627 0.1342 1.114
1.579 77.48 8.269 1.113
508.178 -6 75.03 12.26 0.2112 1.125
1.572 75.64 11.02 1.125
411.407 -7 77.22 9.507 0.1848 1.128
1.627 76.53 9.725 1.128
340.677 -8 75.67 9.568 0.2114 1.118
1.525 75.91 9.461 1.119
339.071 -9 75.92 9.237 0.2090 1.118
1.527 76.02 9.422 1.119
338.905 -10 75.85 9.364 0.2105 1.117
1.524 76.01 9.470 1.118
338.886 -11 75.87 9.320 0.2100 1.117
1.525 76.01 9.451 1.118
338.884 -12 75.87 9.335 0.2102 1.117
1.525 76.01 9.458 1.118
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.82E-06 | 0.00 0.00 -0.27 0.68 -0.21 0.00 0.00 0.65
2.04E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
1.68E-05 | 0.00 0.01 -0.96 -0.18 0.06 0.00 0.01 -0.18
6.79E-03 | 0.07 0.02 -0.01 -0.16 -0.97 0.07 0.02 -0.15
5.29E-02 | -0.15 -0.71 0.00 0.00 0.00 0.14 0.67 0.00
1.14E-01 | -0.34 0.59 0.01 0.00 -0.03 -0.38 0.62 0.00
7.63E-02 | 0.86 -0.04 0.00 0.01 0.03 -0.45 0.24 0.01
7.80E-02 | -0.34 -0.39 -0.01 -0.02 -0.10 -0.79 -0.31 -0.02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.8665 +/- 0.282844 1
2 2 1 gaussian Sigma keV 9.33511 +/- 0.278595 1
3 3 1 gaussian norm 0.210166 +/- 0.556489E-02 1
4 4 2 powerlaw PhoIndex 1.11742 +/- 0.139574E-01 1
5 5 2 powerlaw norm 1.52481 +/- 0.852454E-01 1
6 6 3 gaussian LineE keV 76.0090 +/- 0.286196 2
7 7 3 gaussian Sigma keV 9.45799 +/- 0.283317 2
8 3 3 gaussian norm 0.210166 = par 3 2
9 8 4 powerlaw PhoIndex 1.11836 +/- 0.133891E-01 2
10 5 4 powerlaw norm 1.52481 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 338.8842 using 168 PHA bins.
Reduced chi-squared = 2.118026 for 160 degrees of freedom
Null hypothesis probability = 6.636E-15
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.029) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.029) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.254 photons ( 1.4795E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.250 photons ( 1.4750E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w22_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
65.72601
=====best line=====
75.8684 0.283152
=====best sigma=====
9.33130 0.278923
=====norm=====
0.210117 0.557025E-02
=====phoindx=====
1.11742 0.139626E-01
=====pow_norm=====
1.52488 0.852668E-01
=====best line=====
76.0096 0.286247
=====best sigma=====
9.45608 0.283426
=====norm=====
0.210117 par
=====phoindx=====
1.11836 0.133939E-01
=====pow_norm=====
1.52488 par
=====redu_chi=====
2.118025
=====area_flux=====
1.254
=====area_flux_f=====
1.250
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.476712 7.653752
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 10 1 640 2000 1213.8944 6.476712 0.210117 0.557025E-02 9.33130 0.278923 1.11742 0.139626E-01 1.52488 0.852668E-01 1.254 640 2000 1216.1536 7.653752 0.210117 0.557025E-02 9.45608 0.283426 1.11836 0.133939E-01 1.52488 0.852668E-01 1.250 2.118025 0
=====redu_chi=====
206.6356
=====best line=====
119.325 0.249929
=====best sigma=====
19.3655 2.61253
=====norm=====
1.23927 0.943949E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
115.139 0.273067
=====best sigma=====
19.3655 2.30208
=====norm=====
1.23927 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
33.41716
=====area_flux=====
1.042
=====area_flux_f=====
0.9700
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.476712 7.653752
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 10 1 1600 3200 1909.2 6.476712 1.23927 0.943949E-02 309.848 41.80048 9.50000 -1.00000 0.00000 -1.00000 1.042 1600 3200 1842.224 7.653752 1.23927 0.943949E-02 309.848 36.83328 9.50000 -1.00000 0.00000 -1.00000 0.9700 33.41716 1
=====redu_chi=====
96.61062
=====best line=====
75.8665 0.282844
=====best sigma=====
9.33511 0.278595
=====norm=====
0.210166 0.556489E-02
=====phoindx=====
1.11742 0.139574E-01
=====pow_norm=====
1.52481 0.852454E-01
=====best line=====
76.0090 0.286196
=====best sigma=====
9.45799 0.283317
=====norm=====
0.210166 par
=====phoindx=====
1.11836 0.133891E-01
=====pow_norm=====
1.52481 par
=====redu_chi=====
2.118026
=====area_flux=====
1.254
=====area_flux_f=====
1.250
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
6.476712 7.653752
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 10 1 640 2000 1213.864 6.476712 0.210166 0.556489E-02 9.33511 0.278595 1.11742 0.139574E-01 1.52481 0.852454E-01 1.254 640 2000 1216.144 7.653752 0.210166 0.556489E-02 9.45799 0.283317 1.11836 0.133891E-01 1.52481 0.852454E-01 1.250 2.118026 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:10:05 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.692 +/- 1.1115E-02
Net count rate (cts/s) for file 2 3.692 +/- 1.1115E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 126313.4 using 168 PHA bins.
Reduced chi-squared = 789.4589 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 10575.67 using 168 PHA bins.
Reduced chi-squared = 66.09794 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2778.50 -3 83.23 17.38 0.2784 0.9926
0.7881 83.09 17.04 0.9814
1377.70 -3 66.59 19.19 0.4342 0.8879
0.4775 69.43 19.22 0.8913
872.930 -2 72.19 5.986 9.7604E-02 0.8430
0.5661 74.89 6.447 0.8353
410.716 -3 68.60 9.606 0.1788 0.8466
0.5475 73.11 10.72 0.8454
305.487 -4 69.13 8.279 0.2017 0.8235
0.4853 73.02 9.909 0.8237
300.432 -5 68.77 8.664 0.2055 0.8183
0.4743 72.93 9.793 0.8176
300.380 -6 68.82 8.618 0.2050 0.8190
0.4757 72.93 9.779 0.8181
300.378 -7 68.81 8.625 0.2051 0.8189
0.4754 72.93 9.783 0.8180
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.14E-06 | 0.00 0.00 -0.19 0.58 -0.57 0.00 0.00 0.56
1.77E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.85E-05 | 0.00 0.01 -0.98 -0.11 0.10 0.00 0.01 -0.12
8.48E-04 | 0.03 -0.01 0.01 -0.42 -0.82 0.02 -0.01 -0.40
5.78E-02 | -0.25 -0.83 0.00 0.00 0.00 0.03 0.49 0.00
7.58E-02 | 0.93 -0.10 0.00 0.01 0.02 -0.11 0.33 0.01
1.48E-01 | 0.25 -0.46 -0.01 0.01 0.03 0.52 -0.68 0.01
9.73E-02 | 0.03 -0.29 -0.01 -0.01 -0.01 -0.85 -0.44 -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 68.8074 +/- 0.281293 1
2 2 1 gaussian Sigma keV 8.62483 +/- 0.282886 1
3 3 1 gaussian norm 0.205086 +/- 0.610650E-02 1
4 4 2 powerlaw PhoIndex 0.818872 +/- 0.132781E-01 1
5 5 2 powerlaw norm 0.475412 +/- 0.263685E-01 1
6 6 3 gaussian LineE keV 72.9290 +/- 0.332284 2
7 7 3 gaussian Sigma keV 9.78281 +/- 0.329816 2
8 3 3 gaussian norm 0.205086 = par 3 2
9 8 4 powerlaw PhoIndex 0.817994 +/- 0.127226E-01 2
10 5 4 powerlaw norm 0.475412 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 300.3784 using 168 PHA bins.
Reduced chi-squared = 1.877365 for 160 degrees of freedom
Null hypothesis probability = 1.243E-10
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 68.3666 69.2495 ( -0.440804 , 0.442108 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 72.4116 73.4452 ( -0.517380 , 0.516174 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.365 photons ( 1.6284E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.369 photons ( 1.6474E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:10:05 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 9.010 +/- 1.7363E-02
Net count rate (cts/s) for file 2 9.010 +/- 1.7363E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 5.318 +/- 2.0615E-02( 59.0% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 5.318 +/- 2.0615E-02( 59.0% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 3079456. using 198 PHA bins.
Reduced chi-squared = 16207.67 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 36941.99 using 198 PHA bins.
Reduced chi-squared = 194.4315 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
19412.1 -3 106.3 18.86 0.5111 2.608
0.1692 115.9 18.96 2.558
19109.8 1 106.7 18.83 0.5160 1.708
3.8083E-02 115.8 18.92 3.460
16300.9 0 110.0 18.37 0.5624 1.548
7.1442E-02 115.4 18.29 7.449
12425.8 0 118.4 9.007 0.8666 1.633
4.8243E-02 113.5 9.400 9.326
7947.52 -1 117.0 18.74 1.051 1.511
0.1299 112.3 18.65 9.481
4076.03 0 115.5 15.91 1.151 1.673
2.6518E-02 111.3 14.47 9.492
3432.08 -1 113.0 17.73 1.354 3.454
9.6698E-03 111.3 16.87 9.497
3311.77 0 112.9 17.97 1.348 9.059
2.9615E-03 111.1 16.62 9.499
3290.04 0 112.8 18.12 1.344 9.396
1.3324E-03 111.1 16.53 9.499
3278.68 0 112.7 18.11 1.343 9.474
6.2939E-04 111.1 16.49 9.500
3270.44 0 112.7 18.10 1.342 9.491
1.8045E-04 111.1 16.46 9.500
3264.35 0 112.6 18.09 1.341 9.500
6.1721E-05 111.1 16.44 9.500
3259.74 0 112.6 18.09 1.341 9.500
1.6916E-06 111.1 16.41 9.500
3256.20 0 112.6 18.09 1.340 9.500
7.5702E-07 111.1 16.40 9.500
3253.45 0 112.6 18.08 1.340 9.500
2.9361E-07 111.1 16.38 9.500
3251.27 0 112.6 18.08 1.339 9.500
6.3519E-08 111.1 16.36 9.500
3247.48 0 112.5 18.08 1.339 9.500
2.5587E-09 111.0 16.33 9.500
3244.55 0 112.5 18.08 1.338 9.500
2.0437E-10 111.0 16.30 9.500
3243.50 0 112.5 18.08 1.338 9.500
8.5242E-11 111.1 16.29 9.500
3242.64 0 112.5 18.08 1.337 9.500
2.5935E-11 111.1 16.28 9.500
3241.89 0 112.5 18.08 1.337 9.500
1.1161E-11 111.1 16.27 9.500
3241.27 0 112.4 18.08 1.337 9.500
3.7959E-12 111.1 16.26 9.500
3240.74 0 112.4 18.08 1.337 9.500
1.2246E-13 111.1 16.26 9.500
3240.29 0 112.4 18.08 1.337 9.500
7.9055E-15 111.1 16.25 9.500
Fit parameter 5 has pegged
3236.65 0 112.4 18.07 1.334 9.500
0.000 111.1 16.16 9.500
Fit parameter 5 has pegged
3233.56 -1 112.4 18.04 1.326 9.500
0.000 111.4 16.03 9.500
Fit parameter 5 has pegged
3232.83 -2 112.5 18.01 1.321 9.500
0.000 111.6 15.99 9.500
Fit parameter 5 has pegged
3232.77 -3 112.5 18.00 1.319 9.500
0.000 111.6 15.98 9.500
Fit parameter 5 has pegged
3232.76 -4 112.5 18.00 1.319 9.500
0.000 111.6 15.97 9.500
3232.76 4 112.5 18.00 1.319 9.500
0.000 111.6 15.97 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.98E-05 | -0.01 0.01 -1.00 -0.01 0.03
1.18E-03 | 0.01 0.00 0.03 0.16 0.99
1.52E-02 | -0.64 -0.77 0.00 0.04 0.00
1.23E-01 | 0.70 -0.57 -0.02 0.42 -0.08
4.24E-02 | 0.31 -0.30 0.01 -0.89 0.14
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 112.547 +/- 0.267173 1
2 2 1 gaussian Sigma keV 17.9955 +/- 0.229176 1
3 3 1 gaussian norm 1.31875 +/- 0.108633E-01 1
4 4 2 powerlaw PhoIndex 9.50000 +/- -1.00000 1
5 5 2 powerlaw norm 0.00000 +/- -1.00000 1
6 6 3 gaussian LineE keV 111.624 +/- 0.235355 2
7 7 3 gaussian Sigma keV 15.9749 +/- 0.520319E-01 2
8 3 3 gaussian norm 1.31875 = 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 = 3232.759 using 198 PHA bins.
Reduced chi-squared = 17.01452 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 ( 16.410) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 16.410) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 200. reset by matrix bound to 198.
Model flux 0.9984 photons ( 1.9193E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.011 photons ( 1.9111E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:10:06 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.692 +/- 1.1115E-02
Net count rate (cts/s) for file 2 3.692 +/- 1.1115E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 162988.9 using 168 PHA bins.
Reduced chi-squared = 1018.681 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 16838.43 using 168 PHA bins.
Reduced chi-squared = 105.2402 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2370.09 -3 87.00 14.37 0.1309 0.9199
0.7200 86.32 13.99 0.9053
1981.49 -4 61.45 19.13 0.3511 0.9969
0.8719 63.80 18.74 0.9914
1145.45 0 67.67 19.20 0.3453 0.9934
0.8751 69.95 19.27 0.9900
1095.76 0 68.07 18.85 0.3466 0.9931
0.8753 70.44 19.04 0.9899
1056.07 0 68.41 18.56 0.3476 0.9929
0.8753 70.86 18.82 0.9898
1023.34 0 68.70 18.30 0.3483 0.9927
0.8752 71.23 18.62 0.9898
825.566 0 70.21 13.97 0.3450 0.9917
0.8735 73.14 13.97 0.9896
552.783 -1 70.85 11.13 0.2513 0.9775
0.8932 74.33 11.90 0.9757
430.167 -2 70.16 9.829 0.1981 0.9375
0.7902 74.25 9.943 0.9374
357.474 -2 69.51 8.593 0.2018 0.9113
0.7054 73.60 9.712 0.9114
333.846 -2 69.21 8.549 0.2016 0.8904
0.6468 73.46 9.644 0.8903
320.494 -2 69.12 8.519 0.2016 0.8745
0.6049 73.34 9.649 0.8742
313.650 -3 68.88 8.626 0.2044 0.8321
0.4984 73.03 9.768 0.8330
300.434 -4 68.81 8.634 0.2052 0.8186
0.4752 72.93 9.789 0.8181
300.378 -5 68.81 8.624 0.2051 0.8189
0.4755 72.93 9.782 0.8180
300.378 -6 68.81 8.624 0.2051 0.8189
0.4754 72.93 9.782 0.8180
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.14E-06 | 0.00 0.00 -0.19 0.58 -0.57 0.00 0.00 0.56
1.77E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.85E-05 | 0.00 0.01 -0.98 -0.11 0.10 0.00 0.01 -0.12
8.47E-04 | 0.03 -0.01 0.01 -0.42 -0.82 0.02 -0.01 -0.40
5.78E-02 | -0.25 -0.83 0.00 0.00 0.00 0.03 0.49 0.00
7.59E-02 | 0.93 -0.10 0.00 0.01 0.02 -0.11 0.33 0.01
1.48E-01 | 0.25 -0.46 -0.01 0.01 0.03 0.52 -0.68 0.01
9.73E-02 | 0.03 -0.29 -0.01 -0.01 -0.01 -0.85 -0.44 -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 68.8084 +/- 0.281447 1
2 2 1 gaussian Sigma keV 8.62407 +/- 0.283078 1
3 3 1 gaussian norm 0.205074 +/- 0.611053E-02 1
4 4 2 powerlaw PhoIndex 0.818894 +/- 0.132813E-01 1
5 5 2 powerlaw norm 0.475450 +/- 0.263631E-01 1
6 6 3 gaussian LineE keV 72.9294 +/- 0.332317 2
7 7 3 gaussian Sigma keV 9.78227 +/- 0.329888 2
8 3 3 gaussian norm 0.205074 = par 3 2
9 8 4 powerlaw PhoIndex 0.818010 +/- 0.127256E-01 2
10 5 4 powerlaw norm 0.475450 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 300.3783 using 168 PHA bins.
Reduced chi-squared = 1.877365 for 160 degrees of freedom
Null hypothesis probability = 1.243E-10
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 68.3668 69.2497 ( -0.441597 , 0.441307 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 72.4119 73.4454 ( -0.517570 , 0.515945 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.365 photons ( 1.6284E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.369 photons ( 1.6474E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w23_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
66.09794
=====best line=====
68.8074 0.281293
=====best sigma=====
8.62483 0.282886
=====norm=====
0.205086 0.610650E-02
=====phoindx=====
0.818872 0.132781E-01
=====pow_norm=====
0.475412 0.263685E-01
=====best line=====
72.9290 0.332284
=====best sigma=====
9.78281 0.329816
=====norm=====
0.205086 par
=====phoindx=====
0.817994 0.127226E-01
=====pow_norm=====
0.475412 par
=====redu_chi=====
1.877365
=====slow error=====
-0.440804 0.442108
=====fast error=====
-0.517380 0.516174
=====area_flux=====
1.365
=====area_flux_f=====
1.369
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.063296 8.268432
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 11 1 640 2000 1100.9184 7.063296 0.205086 0.610650E-02 8.62483 0.282886 0.818872 0.132781E-01 0.475412 0.263685E-01 1.365 640 2000 1166.864 8.268432 0.205086 0.610650E-02 9.78281 0.329816 0.817994 0.127226E-01 0.475412 0.263685E-01 1.369 1.877365 0
=====redu_chi=====
194.4315
=====best line=====
112.547 0.267173
=====best sigma=====
17.9955 0.229176
=====norm=====
1.31875 0.108633E-01
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
111.624 0.235355
=====best sigma=====
15.9749 0.520319E-01
=====norm=====
1.31875 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
17.01452
=====area_flux=====
0.9984
=====area_flux_f=====
1.011
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.063296 8.268432
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 11 1 1600 3200 1800.752 7.063296 1.31875 0.108633E-01 287.928 3.666816 9.50000 -1.00000 0.00000 -1.00000 0.9984 1600 3200 1785.984 8.268432 1.31875 0.108633E-01 255.5984 0.8325104 9.50000 -1.00000 0.00000 -1.00000 1.011 17.01452 1
=====redu_chi=====
105.2402
=====best line=====
68.8084 0.281447
=====best sigma=====
8.62407 0.283078
=====norm=====
0.205074 0.611053E-02
=====phoindx=====
0.818894 0.132813E-01
=====pow_norm=====
0.475450 0.263631E-01
=====best line=====
72.9294 0.332317
=====best sigma=====
9.78227 0.329888
=====norm=====
0.205074 par
=====phoindx=====
0.818010 0.127256E-01
=====pow_norm=====
0.475450 par
=====redu_chi=====
1.877365
=====slow error=====
-0.441597 0.441307
=====fast error=====
-0.517570 0.515945
=====area_flux=====
1.365
=====area_flux_f=====
1.369
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.063232 8.26812
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 11 1 640 2000 1100.9344 7.063232 0.205074 0.611053E-02 8.62407 0.283078 0.818894 0.132813E-01 0.475450 0.263631E-01 1.365 640 2000 1166.8704 8.26812 0.205074 0.611053E-02 9.78227 0.329888 0.818010 0.127256E-01 0.475450 0.263631E-01 1.369 1.877365 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:10:06 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.410 +/- 1.0682E-02
Net count rate (cts/s) for file 2 3.410 +/- 1.0682E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 124402.9 using 168 PHA bins.
Reduced chi-squared = 777.5184 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 7357.100 using 168 PHA bins.
Reduced chi-squared = 45.98187 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1112.48 -3 83.03 15.90 0.2309 0.9097
0.6350 83.46 15.20 0.9068
656.703 -3 75.10 8.150 0.1340 0.8297
0.4945 77.44 8.534 0.8329
535.639 -1 76.91 9.662 0.1861 0.8352
0.4939 79.28 13.37 0.8371
375.506 -2 77.10 9.192 0.1905 0.8563
0.5342 78.73 9.495 0.8567
366.208 0 77.07 9.302 0.1934 0.8561
0.5350 79.02 9.799 0.8571
363.538 0 77.05 9.375 0.1956 0.8562
0.5353 79.16 9.934 0.8576
362.264 0 77.04 9.429 0.1973 0.8565
0.5355 79.22 10.04 0.8580
358.870 -1 77.01 9.606 0.2023 0.8592
0.5393 79.25 10.26 0.8608
345.006 -2 77.11 9.665 0.2050 0.8773
0.5783 79.32 10.24 0.8783
335.174 -2 77.19 9.681 0.2059 0.8909
0.6132 79.41 10.26 0.8920
333.708 -3 77.39 9.754 0.2089 0.9297
0.7116 79.64 10.34 0.9297
319.818 -4 77.48 9.792 0.2103 0.9433
0.7630 79.71 10.35 0.9442
318.803 -5 77.49 9.797 0.2104 0.9431
0.7665 79.72 10.35 0.9447
318.803 -6 77.49 9.797 0.2104 0.9431
0.7665 79.72 10.35 0.9447
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.52E-06 | 0.00 0.00 -0.24 0.65 -0.39 0.00 0.00 0.61
1.92E-06 | 0.00 0.00 -0.01 -0.68 0.00 0.00 0.00 0.73
1.84E-05 | 0.00 0.01 -0.97 -0.14 0.11 0.00 0.05 -0.15
1.84E-03 | 0.03 -0.01 0.00 -0.27 -0.84 0.04 0.40 -0.25
2.45E-03 | -0.01 -0.06 0.05 0.13 0.36 0.00 0.91 0.12
8.59E-02 | 0.78 0.62 0.01 0.01 0.03 -0.11 0.04 0.01
1.15E-01 | -0.45 0.43 0.01 -0.01 -0.03 -0.78 0.04 -0.01
9.74E-02 | -0.44 0.65 0.01 0.01 0.02 0.62 0.03 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.4870 +/- 0.306430 1
2 2 1 gaussian Sigma keV 9.79685 +/- 0.309575 1
3 3 1 gaussian norm 0.210355 +/- 0.614570E-02 1
4 4 2 powerlaw PhoIndex 0.943087 +/- 0.140050E-01 1
5 5 2 powerlaw norm 0.766497 +/- 0.428265E-01 1
6 6 3 gaussian LineE keV 79.7180 +/- 0.328052 2
7 7 3 gaussian Sigma keV 10.3481 +/- 0.519901E-01 2
8 3 3 gaussian norm 0.210355 = par 3 2
9 8 4 powerlaw PhoIndex 0.944722 +/- 0.134496E-01 2
10 5 4 powerlaw norm 0.766497 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 318.8026 using 168 PHA bins.
Reduced chi-squared = 1.992516 for 160 degrees of freedom
Null hypothesis probability = 1.289E-12
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 77.0007 77.9727 ( -0.486267 , 0.485710 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 79.1980 80.2357 ( -0.519974 , 0.517708 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.311 photons ( 1.5754E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.304 photons ( 1.5736E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:10:06 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.933 +/- 1.6292E-02
Net count rate (cts/s) for file 2 7.933 +/- 1.6292E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.523 +/- 1.9482E-02( 57.0% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.523 +/- 1.9482E-02( 57.0% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 1060482. using 198 PHA bins.
Reduced chi-squared = 5581.485 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 43724.31 using 198 PHA bins.
Reduced chi-squared = 230.1280 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
22678.5 -3 125.8 17.67 0.5073 3.011
0.6548 122.5 17.61 2.970
12230.0 -2 114.2 19.10 1.676 6.927
9.5590E-02 113.9 19.34 9.282
11054.3 0 115.1 19.27 1.607 8.599
4.5508E-02 115.1 19.36 9.465
10298.5 0 116.0 19.36 1.565 9.351
1.2866E-02 116.3 19.37 9.487
9808.28 0 117.0 19.37 1.537 9.445
3.0228E-03 117.3 19.37 9.497
9456.88 0 117.8 19.37 1.517 9.477
1.4696E-03 118.2 19.37 9.500
9202.71 0 118.5 19.37 1.503 9.494
4.1351E-04 118.9 19.37 9.500
9015.04 0 119.0 19.37 1.491 9.499
8.8982E-05 119.5 19.37 9.500
8876.20 0 119.5 19.37 1.482 9.500
4.3312E-05 119.9 19.37 9.500
8770.37 0 119.9 19.37 1.474 9.500
1.9398E-05 120.3 19.37 9.500
8692.10 0 120.2 19.37 1.468 9.500
6.9253E-06 120.6 19.37 9.500
8632.05 0 120.5 19.37 1.463 9.500
5.1767E-07 120.8 19.37 9.500
8546.11 0 120.9 19.37 1.454 9.500
3.7799E-08 121.0 19.37 9.500
8515.60 0 121.0 19.37 1.450 9.500
8.1890E-10 121.1 19.37 9.500
8473.72 0 121.3 19.37 1.446 9.500
8.3731E-11 121.2 19.37 9.500
8461.66 0 121.4 19.37 1.444 9.500
8.3883E-12 121.3 19.37 9.500
8452.01 0 121.4 19.37 1.443 9.500
3.6763E-12 121.3 19.37 9.500
8445.10 0 121.5 19.37 1.443 9.500
1.3004E-12 121.3 19.37 9.500
8442.11 0 121.5 19.37 1.443 9.500
1.1544E-13 121.3 19.37 9.500
Fit parameter 5 has pegged
8417.48 0 121.6 19.37 1.437 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
8406.90 0 121.6 19.37 1.434 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
8404.84 0 121.6 19.37 1.434 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
8402.96 0 121.6 19.37 1.433 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
8402.35 0 121.6 19.37 1.433 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
8366.17 0 121.7 19.37 1.426 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
8334.06 0 121.8 19.37 1.419 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
8305.34 0 121.9 19.37 1.413 9.500
0.000 121.3 19.37 9.500
Fit parameter 5 has pegged
8279.62 0 122.0 19.37 1.408 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
8256.58 0 122.0 19.37 1.402 9.500
0.000 121.4 19.37 9.500
Fit parameter 5 has pegged
8235.88 0 122.1 19.37 1.398 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
8217.13 0 122.2 19.37 1.393 9.500
0.000 121.5 19.37 9.500
Fit parameter 5 has pegged
8200.18 0 122.3 19.37 1.389 9.500
0.000 121.6 19.37 9.500
Fit parameter 5 has pegged
8184.76 0 122.3 19.37 1.385 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
8170.74 0 122.4 19.37 1.382 9.500
0.000 121.7 19.37 9.500
Fit parameter 5 has pegged
8157.96 0 122.5 19.37 1.378 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
8146.31 0 122.5 19.37 1.375 9.500
0.000 121.8 19.37 9.500
Fit parameter 5 has pegged
8135.62 0 122.6 19.37 1.373 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
8125.86 0 122.7 19.37 1.370 9.500
0.000 121.9 19.37 9.500
Fit parameter 5 has pegged
8116.92 0 122.7 19.37 1.367 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
8108.73 0 122.8 19.37 1.365 9.500
0.000 122.0 19.37 9.500
Fit parameter 5 has pegged
8101.13 0 122.8 19.37 1.363 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
8094.17 0 122.9 19.37 1.361 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
8087.78 0 123.0 19.37 1.359 9.500
0.000 122.1 19.37 9.500
Fit parameter 5 has pegged
8081.85 0 123.0 19.37 1.357 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
8076.41 0 123.1 19.37 1.356 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
8071.35 0 123.1 19.37 1.354 9.500
0.000 122.2 19.37 9.500
Fit parameter 5 has pegged
8066.67 0 123.2 19.37 1.353 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
8062.34 0 123.2 19.37 1.351 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
8058.31 0 123.3 19.37 1.350 9.500
0.000 122.3 19.37 9.500
Fit parameter 5 has pegged
8054.58 0 123.3 19.37 1.349 9.500
0.000 122.4 19.37 9.500
Fit parameter 5 has pegged
8051.09 0 123.4 19.37 1.348 9.500
0.000 122.4 19.37 9.500
Fit parameter 5 has pegged
8047.87 0 123.4 19.37 1.346 9.500
0.000 122.4 19.37 9.500
Fit parameter 5 has pegged
8044.87 0 123.4 19.37 1.345 9.500
0.000 122.4 19.37 9.500
Fit parameter 5 has pegged
8042.11 0 123.5 19.37 1.344 9.500
0.000 122.5 19.37 9.500
Fit parameter 5 has pegged
8039.55 0 123.5 19.37 1.344 9.500
0.000 122.5 19.37 9.500
Fit parameter 5 has pegged
8037.12 0 123.6 19.37 1.343 9.500
0.000 122.5 19.37 9.500
Fit parameter 5 has pegged
8034.90 0 123.6 19.37 1.342 9.500
0.000 122.5 19.37 9.500
Fit parameter 5 has pegged
8032.80 0 123.6 19.37 1.341 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
8030.84 0 123.7 19.37 1.340 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
8029.02 0 123.7 19.37 1.340 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
8027.31 0 123.7 19.37 1.339 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
8025.71 0 123.8 19.37 1.338 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
8024.24 0 123.8 19.37 1.338 9.500
0.000 122.6 19.37 9.500
Fit parameter 5 has pegged
8022.86 0 123.8 19.37 1.337 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
8021.55 0 123.8 19.37 1.337 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
8020.32 0 123.9 19.37 1.336 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
8019.18 0 123.9 19.37 1.336 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
8018.09 0 123.9 19.37 1.335 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
8017.07 0 123.9 19.37 1.335 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
8016.15 0 124.0 19.37 1.334 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
8015.25 0 124.0 19.37 1.334 9.500
0.000 122.7 19.37 9.500
Fit parameter 5 has pegged
8014.41 0 124.0 19.37 1.334 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8013.62 0 124.0 19.37 1.333 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8012.87 0 124.0 19.37 1.333 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8012.19 0 124.1 19.37 1.332 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8011.53 0 124.1 19.37 1.332 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8010.91 0 124.1 19.37 1.332 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8010.33 0 124.1 19.37 1.332 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8009.79 0 124.1 19.37 1.331 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8009.29 0 124.1 19.37 1.331 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8008.81 0 124.2 19.37 1.331 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8008.33 0 124.2 19.37 1.331 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8007.92 0 124.2 19.37 1.330 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8007.51 0 124.2 19.37 1.330 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8007.12 0 124.2 19.37 1.330 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8006.76 0 124.2 19.37 1.330 9.500
0.000 122.8 19.37 9.500
Fit parameter 5 has pegged
8006.39 0 124.2 19.37 1.329 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8006.09 0 124.2 19.37 1.329 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8005.77 0 124.2 19.37 1.329 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8005.48 0 124.3 19.37 1.329 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8005.23 0 124.3 19.37 1.329 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8004.96 0 124.3 19.37 1.329 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8004.70 0 124.3 19.37 1.329 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8004.47 0 124.3 19.37 1.328 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8004.23 0 124.3 19.37 1.328 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8004.02 0 124.3 19.37 1.328 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8003.81 0 124.3 19.37 1.328 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8003.60 0 124.3 19.37 1.328 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8003.42 0 124.3 19.37 1.328 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8003.24 0 124.3 19.37 1.328 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8003.08 0 124.3 19.37 1.328 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8002.93 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8002.76 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8002.62 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8002.47 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8002.36 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8002.24 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8002.12 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8002.00 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.88 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.79 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.69 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.60 0 124.4 19.37 1.327 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.52 0 124.4 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.43 0 124.4 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.36 0 124.4 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.29 0 124.4 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.21 0 124.4 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.15 0 124.4 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.07 0 124.4 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8001.01 0 124.4 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.95 0 124.4 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.90 0 124.4 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.84 0 124.4 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.79 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.74 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.70 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.65 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.61 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.56 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.53 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.47 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.44 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.40 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.37 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.33 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.31 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.28 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.25 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.22 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.21 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.17 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.13 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.11 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
Fit parameter 5 has pegged
8000.11 0 124.5 19.37 1.326 9.500
0.000 122.9 19.37 9.500
8000.03 0 124.5 19.37 1.326 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
8000.01 0 124.5 19.37 1.326 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
8000.00 0 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
7999.95 0 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.93 0 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.91 0 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.89 0 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.87 0 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.84 0 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.76 1 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.74 0 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.69 1 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.67 0 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.59 1 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.51 1 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.43 1 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.36 1 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.28 1 124.5 19.37 1.325 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.20 1 124.5 19.37 1.324 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.12 1 124.5 19.37 1.324 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7999.05 1 124.5 19.37 1.324 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.98 1 124.5 19.37 1.324 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.92 1 124.5 19.37 1.324 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.84 1 124.5 19.37 1.324 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.76 1 124.5 19.37 1.324 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.69 1 124.5 19.37 1.324 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.62 1 124.5 19.37 1.324 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.57 1 124.5 19.37 1.324 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.50 1 124.5 19.37 1.324 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.43 1 124.5 19.37 1.323 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.37 1 124.5 19.37 1.323 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.30 1 124.5 19.37 1.323 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.23 1 124.5 19.37 1.323 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.18 1 124.5 19.37 1.323 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.10 1 124.5 19.37 1.323 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7998.04 1 124.5 19.37 1.323 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7997.99 1 124.5 19.37 1.323 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7997.92 1 124.5 19.37 1.323 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7997.87 1 124.5 19.37 1.323 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7997.81 1 124.5 19.37 1.323 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7997.75 1 124.5 19.37 1.322 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7997.69 1 124.5 19.37 1.322 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7997.64 1 124.5 19.37 1.322 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7997.58 1 124.5 19.37 1.322 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7997.54 1 124.5 19.37 1.322 9.500
0.000 123.0 19.37 9.500
Fit parameter 5 has pegged
7997.48 1 124.6 19.37 1.322 9.500
0.000 123.0 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.34E-05 | -0.01 0.00 -1.00 -0.01 0.00
3.98E-02 | -0.97 -0.03 0.01 -0.25 -0.02
3.49E-02 | -0.25 0.00 0.00 0.97 0.04
8.82E+00 | -0.03 0.90 0.00 -0.02 0.43
4.80E+00 | 0.01 -0.43 0.00 -0.04 0.90
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 124.550 +/- 0.213614 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.84352 1
3 3 1 gaussian norm 1.32199 +/- 0.863499E-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 122.989 +/- 0.217531 2
7 7 3 gaussian Sigma keV 19.3655 +/- 2.34948 2
8 3 3 gaussian norm 1.32199 = 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 = 7997.483 using 198 PHA bins.
Reduced chi-squared = 42.09202 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 ( 40.596) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 40.596) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.186 photons ( 2.4406E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.166 photons ( 2.3792E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:10:07 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.410 +/- 1.0682E-02
Net count rate (cts/s) for file 2 3.410 +/- 1.0682E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 150276.3 using 168 PHA bins.
Reduced chi-squared = 939.2271 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11790.21 using 168 PHA bins.
Reduced chi-squared = 73.68879 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1805.33 -3 85.75 13.60 0.1825 0.9614
0.7444 86.03 12.36 0.9545
672.516 -4 73.53 14.05 0.2066 0.8897
0.6076 76.82 12.01 0.8930
615.700 -3 80.98 9.202 0.1738 0.9607
0.8027 80.85 9.788 0.9579
481.480 -1 77.70 12.98 0.2043 0.9559
0.8111 79.85 11.74 0.9569
338.013 -2 78.26 9.561 0.1918 0.9508
0.8052 79.93 9.863 0.9524
328.319 0 77.91 9.520 0.1964 0.9512
0.8037 79.91 9.921 0.9528
324.337 0 77.74 9.533 0.1997 0.9515
0.8024 79.89 9.996 0.9531
320.561 -1 77.53 9.781 0.2085 0.9522
0.7983 79.81 10.53 0.9538
319.132 -2 77.53 9.810 0.2107 0.9504
0.7907 79.76 10.32 0.9521
318.844 -3 77.50 9.808 0.2107 0.9450
0.7732 79.73 10.36 0.9469
318.806 -4 77.49 9.796 0.2103 0.9431
0.7667 79.72 10.34 0.9448
318.803 -5 77.49 9.798 0.2104 0.9431
0.7665 79.72 10.35 0.9447
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.52E-06 | 0.00 0.00 -0.24 0.65 -0.39 0.00 0.00 0.60
1.92E-06 | 0.00 0.00 -0.01 -0.68 -0.01 0.00 0.00 0.73
1.84E-05 | 0.00 0.01 -0.97 -0.14 0.11 0.00 0.05 -0.15
1.84E-03 | 0.03 -0.01 0.00 -0.27 -0.84 0.04 0.41 -0.25
2.45E-03 | -0.01 -0.06 0.05 0.13 0.36 0.00 0.91 0.12
8.59E-02 | 0.78 0.62 0.01 0.01 0.03 -0.11 0.04 0.01
1.15E-01 | -0.45 0.43 0.01 -0.01 -0.03 -0.78 0.04 -0.01
9.73E-02 | -0.44 0.65 0.01 0.01 0.02 0.62 0.03 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 77.4868 +/- 0.306450 1
2 2 1 gaussian Sigma keV 9.79794 +/- 0.309545 1
3 3 1 gaussian norm 0.210373 +/- 0.614396E-02 1
4 4 2 powerlaw PhoIndex 0.943092 +/- 0.140002E-01 1
5 5 2 powerlaw norm 0.766506 +/- 0.428233E-01 1
6 6 3 gaussian LineE keV 79.7181 +/- 0.327935 2
7 7 3 gaussian Sigma keV 10.3492 +/- 0.519680E-01 2
8 3 3 gaussian norm 0.210373 = par 3 2
9 8 4 powerlaw PhoIndex 0.944729 +/- 0.134453E-01 2
10 5 4 powerlaw norm 0.766506 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 318.8026 using 168 PHA bins.
Reduced chi-squared = 1.992516 for 160 degrees of freedom
Null hypothesis probability = 1.289E-12
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 77.0007 77.9727 ( -0.486069 , 0.485939 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 79.1979 80.2355 ( -0.520195 , 0.517471 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.311 photons ( 1.5754E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.304 photons ( 1.5736E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w30_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
45.98187
=====best line=====
77.4870 0.306430
=====best sigma=====
9.79685 0.309575
=====norm=====
0.210355 0.614570E-02
=====phoindx=====
0.943087 0.140050E-01
=====pow_norm=====
0.766497 0.428265E-01
=====best line=====
79.7180 0.328052
=====best sigma=====
10.3481 0.519901E-01
=====norm=====
0.210355 par
=====phoindx=====
0.944722 0.134496E-01
=====pow_norm=====
0.766497 par
=====redu_chi=====
1.992516
=====slow error=====
-0.486267 0.485710
=====fast error=====
-0.519974 0.517708
=====area_flux=====
1.311
=====area_flux_f=====
1.304
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.775816 8.301456
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 12 1 640 2000 1239.792 7.775816 0.210355 0.614570E-02 9.79685 0.309575 0.943087 0.140050E-01 0.766497 0.428265E-01 1.311 640 2000 1275.488 8.301456 0.210355 0.614570E-02 10.3481 0.519901E-01 0.944722 0.134496E-01 0.766497 0.428265E-01 1.304 1.992516 0
=====redu_chi=====
230.1280
=====best line=====
124.550 0.213614
=====best sigma=====
19.3655 2.84352
=====norm=====
1.32199 0.863499E-02
=====phoindx=====
9.50002 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
122.989 0.217531
=====best sigma=====
19.3655 2.34948
=====norm=====
1.32199 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
42.09202
=====area_flux=====
1.186
=====area_flux_f=====
1.166
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.775816 8.301456
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 12 1 1600 3200 1992.8 7.775816 1.32199 0.863499E-02 309.848 45.49632 9.50002 -1.00000 0.00000 -1.00000 1.186 1600 3200 1967.824 8.301456 1.32199 0.863499E-02 309.848 37.59168 9.50000 -1.00000 0.00000 -1.00000 1.166 42.09202 1
=====redu_chi=====
73.68879
=====best line=====
77.4868 0.306450
=====best sigma=====
9.79794 0.309545
=====norm=====
0.210373 0.614396E-02
=====phoindx=====
0.943092 0.140002E-01
=====pow_norm=====
0.766506 0.428233E-01
=====best line=====
79.7181 0.327935
=====best sigma=====
10.3492 0.519680E-01
=====norm=====
0.210373 par
=====phoindx=====
0.944729 0.134453E-01
=====pow_norm=====
0.766506 par
=====redu_chi=====
1.992516
=====slow error=====
-0.486069 0.485939
=====fast error=====
-0.520195 0.517471
=====area_flux=====
1.311
=====area_flux_f=====
1.304
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.776064 8.301328
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 12 1 640 2000 1239.7888 7.776064 0.210373 0.614396E-02 9.79794 0.309545 0.943092 0.140002E-01 0.766506 0.428233E-01 1.311 640 2000 1275.4896 8.301328 0.210373 0.614396E-02 10.3492 0.519680E-01 0.944729 0.134453E-01 0.766506 0.428233E-01 1.304 1.992516 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:10:07 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.380 +/- 1.0635E-02
Net count rate (cts/s) for file 2 3.380 +/- 1.0635E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 101961.9 using 168 PHA bins.
Reduced chi-squared = 637.2617 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 4429.033 using 168 PHA bins.
Reduced chi-squared = 27.68145 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1045.29 -3 85.94 12.90 0.1798 0.8141
0.4970 87.13 12.13 0.8128
413.493 -4 81.54 9.426 0.1585 0.8235
0.4953 84.52 9.649 0.8235
389.710 -5 83.23 9.348 0.1938 0.8817
0.5994 85.36 11.68 0.8798
328.578 -6 82.91 9.333 0.1908 0.8813
0.6157 85.39 9.912 0.8810
328.097 0 82.90 9.336 0.1918 0.8812
0.6156 85.34 9.982 0.8811
327.694 -1 82.89 9.409 0.1944 0.8814
0.6152 85.28 10.18 0.8816
327.587 -2 82.89 9.423 0.1951 0.8822
0.6168 85.28 10.10 0.8823
327.527 -3 82.90 9.438 0.1956 0.8846
0.6225 85.28 10.16 0.8846
327.519 -4 82.91 9.439 0.1957 0.8855
0.6251 85.29 10.13 0.8856
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.33E-06 | 0.00 0.00 -0.22 0.62 -0.47 0.00 0.00 0.59
1.81E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.68E-05 | 0.00 0.01 -0.97 -0.12 0.14 0.00 0.04 -0.13
1.42E-03 | 0.03 0.02 -0.03 -0.34 -0.86 0.03 0.19 -0.33
4.31E-03 | -0.01 -0.09 0.04 0.07 0.15 0.01 0.98 0.07
9.01E-02 | 0.92 0.35 0.00 0.01 0.03 -0.20 0.04 0.01
1.14E-01 | -0.26 0.14 0.00 -0.01 -0.02 -0.96 0.02 -0.01
1.04E-01 | -0.31 0.92 0.01 0.01 0.03 0.22 0.08 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 82.9074 +/- 0.304784 1
2 2 1 gaussian Sigma keV 9.43911 +/- 0.318528 1
3 3 1 gaussian norm 0.195744 +/- 0.629805E-02 1
4 4 2 powerlaw PhoIndex 0.885489 +/- 0.150859E-01 1
5 5 2 powerlaw norm 0.625074 +/- 0.368530E-01 1
6 6 3 gaussian LineE keV 85.2925 +/- 0.335367 2
7 7 3 gaussian Sigma keV 10.1344 +/- 0.702565E-01 2
8 3 3 gaussian norm 0.195744 = par 3 2
9 8 4 powerlaw PhoIndex 0.885586 +/- 0.145017E-01 2
10 5 4 powerlaw norm 0.625074 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 327.5186 using 168 PHA bins.
Reduced chi-squared = 2.046991 for 160 degrees of freedom
Null hypothesis probability = 1.356E-13
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 82.4181 83.3963 ( -0.489349 , 0.488922 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 84.7556 85.8265 ( -0.536842 , 0.534004 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is already thawed
Model parameter 10 is already thawed
Number of variable fit parameters = 8
XSPEC>Querying disabled - assuming answer is no
XSPEC> Upper range 125. reset by matrix bound to 124.
Model flux 1.343 photons ( 1.6381E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.343 photons ( 1.6450E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:10:08 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.617 +/- 1.5964E-02
Net count rate (cts/s) for file 2 7.617 +/- 1.5964E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.237 +/- 1.9182E-02( 55.6% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.237 +/- 1.9182E-02( 55.6% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 710002.4 using 198 PHA bins.
Reduced chi-squared = 3736.855 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 38700.50 using 198 PHA bins.
Reduced chi-squared = 203.6868 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
20979.0 -3 123.7 18.86 0.5040 2.972
0.9216 124.3 18.59 2.955
13011.4 -4 114.1 19.36 1.677 7.516
1230. 115.6 19.35 7.527
12540.0 0 114.4 19.36 1.648 9.064
5.090 115.9 19.36 9.258
11128.7 0 115.7 19.36 1.561 2.204
2.095 117.1 19.36 9.422
10816.2 0 115.9 19.37 1.541 2.078
3.333 117.4 19.36 9.472
9948.07 0 117.1 19.37 1.487 1.907
6.225 118.6 19.37 9.490
9336.49 0 118.2 19.37 1.451 1.924
5.765 119.7 19.37 9.496
8936.77 0 119.1 19.37 1.428 1.933
5.619 120.6 19.37 9.500
8663.52 0 119.8 19.37 1.412 1.939
5.554 121.4 19.37 9.500
8476.14 0 120.4 19.37 1.401 1.942
5.566 122.0 19.37 9.500
8344.10 0 120.9 19.37 1.393 1.948
5.543 122.5 19.37 9.500
8250.89 0 121.3 19.37 1.387 1.953
5.536 122.8 19.37 9.500
8182.63 0 121.6 19.37 1.383 1.959
5.536 123.1 19.37 9.500
8131.12 0 121.9 19.37 1.379 1.963
5.572 123.3 19.37 9.500
8094.52 0 122.1 19.37 1.376 1.969
5.574 123.5 19.37 9.500
8066.06 0 122.3 19.37 1.374 1.975
5.606 123.6 19.37 9.500
8046.69 0 122.4 19.37 1.372 1.980
5.650 123.7 19.37 9.500
8031.10 0 122.5 19.37 1.371 1.983
5.765 123.8 19.37 9.500
8018.11 0 122.6 19.37 1.370 1.987
5.838 123.9 19.37 9.500
8008.64 0 122.6 19.37 1.369 1.992
5.891 123.9 19.37 9.500
8000.74 0 122.7 19.37 1.368 1.994
6.048 123.9 19.37 9.500
7996.82 0 122.7 19.37 1.368 1.998
6.154 124.0 19.37 9.500
7991.25 0 122.8 19.37 1.367 2.003
6.210 124.0 19.37 9.500
7975.42 0 122.8 19.37 1.364 2.011
6.423 123.9 19.37 9.500
7970.56 0 122.8 19.37 1.363 2.015
6.562 123.9 19.37 9.500
7965.88 0 122.9 19.37 1.362 2.016
6.759 123.9 19.37 9.500
7926.81 0 122.9 19.37 1.354 2.015
6.823 123.9 19.37 9.500
7892.27 0 123.0 19.37 1.347 2.013
6.888 124.0 19.37 9.500
7861.60 0 123.1 19.37 1.341 2.012
6.958 124.1 19.37 9.500
7834.29 0 123.1 19.37 1.335 2.010
7.024 124.1 19.37 9.500
7809.91 0 123.2 19.37 1.329 2.009
7.088 124.2 19.37 9.500
7788.08 0 123.3 19.37 1.324 2.007
7.151 124.3 19.37 9.500
7768.52 0 123.4 19.37 1.320 2.006
7.208 124.3 19.37 9.500
7750.94 0 123.4 19.37 1.315 2.005
7.264 124.4 19.37 9.500
7735.10 0 123.5 19.37 1.311 2.004
7.317 124.4 19.37 9.500
7720.78 0 123.5 19.37 1.308 2.003
7.370 124.5 19.37 9.500
7707.82 0 123.6 19.37 1.304 2.002
7.421 124.6 19.37 9.500
7696.08 0 123.7 19.37 1.301 2.002
7.466 124.6 19.37 9.500
7685.46 0 123.7 19.37 1.298 2.001
7.508 124.7 19.37 9.500
7675.78 0 123.8 19.37 1.295 2.001
7.548 124.7 19.37 9.500
7666.98 0 123.8 19.37 1.293 2.000
7.587 124.8 19.37 9.500
7658.97 0 123.9 19.37 1.290 2.000
7.624 124.8 19.37 9.500
7651.62 0 123.9 19.37 1.288 1.999
7.657 124.9 19.37 9.500
7644.93 0 124.0 19.37 1.286 1.999
7.690 124.9 19.37 9.500
7638.79 0 124.0 19.37 1.284 1.999
7.723 124.9 19.37 9.500
7633.17 0 124.1 19.37 1.282 1.999
7.753 125.0 19.37 9.500
7628.00 0 124.1 19.37 1.280 1.998
7.783 125.0 19.37 9.500
7623.26 0 124.2 19.37 1.279 1.998
7.810 125.1 19.37 9.500
7618.90 0 124.2 19.37 1.277 1.998
7.835 125.1 19.37 9.500
7614.89 0 124.3 19.37 1.276 1.998
7.859 125.1 19.37 9.500
7611.20 0 124.3 19.37 1.274 1.998
7.884 125.2 19.37 9.500
7607.79 0 124.3 19.37 1.273 1.998
7.906 125.2 19.37 9.500
7604.66 0 124.4 19.37 1.272 1.998
7.925 125.2 19.37 9.500
7601.76 0 124.4 19.37 1.271 1.998
7.946 125.3 19.37 9.500
7599.08 0 124.4 19.37 1.270 1.999
7.965 125.3 19.37 9.500
7596.61 0 124.5 19.37 1.269 1.999
7.985 125.3 19.37 9.500
7594.31 0 124.5 19.37 1.268 1.999
8.006 125.3 19.37 9.500
7592.19 0 124.5 19.37 1.267 1.999
8.025 125.4 19.37 9.500
7590.23 0 124.6 19.37 1.266 1.999
8.045 125.4 19.37 9.500
7588.39 0 124.6 19.37 1.266 1.999
8.062 125.4 19.37 9.500
7586.71 0 124.6 19.37 1.265 2.000
8.078 125.4 19.37 9.500
7585.12 0 124.7 19.37 1.264 2.000
8.097 125.5 19.37 9.500
7583.65 0 124.7 19.37 1.263 2.000
8.112 125.5 19.37 9.500
7582.29 0 124.7 19.37 1.263 2.000
8.129 125.5 19.37 9.500
7581.02 0 124.7 19.37 1.262 2.001
8.145 125.5 19.37 9.500
7579.84 0 124.8 19.37 1.262 2.001
8.163 125.5 19.37 9.500
7578.74 0 124.8 19.37 1.261 2.001
8.181 125.5 19.37 9.500
7577.71 0 124.8 19.37 1.261 2.001
8.198 125.6 19.37 9.500
7576.76 0 124.8 19.37 1.260 2.002
8.212 125.6 19.37 9.500
7575.86 0 124.8 19.37 1.260 2.002
8.228 125.6 19.37 9.500
7575.02 0 124.8 19.37 1.259 2.002
8.243 125.6 19.37 9.500
7574.24 0 124.9 19.37 1.259 2.003
8.256 125.6 19.37 9.500
7573.51 0 124.9 19.37 1.259 2.003
8.269 125.6 19.37 9.500
7572.81 0 124.9 19.37 1.258 2.003
8.285 125.6 19.37 9.500
7572.17 0 124.9 19.37 1.258 2.003
8.302 125.7 19.37 9.500
7571.56 0 124.9 19.37 1.258 2.004
8.316 125.7 19.37 9.500
7571.00 0 124.9 19.37 1.257 2.004
8.330 125.7 19.37 9.500
7570.45 0 125.0 19.37 1.257 2.004
8.345 125.7 19.37 9.500
7569.95 0 125.0 19.37 1.257 2.005
8.363 125.7 19.37 9.500
7569.47 0 125.0 19.37 1.257 2.005
8.377 125.7 19.37 9.500
7569.04 0 125.0 19.37 1.256 2.005
8.393 125.7 19.37 9.500
7568.60 0 125.0 19.37 1.256 2.006
8.409 125.7 19.37 9.500
7568.20 0 125.0 19.37 1.256 2.006
8.424 125.7 19.37 9.500
7567.83 0 125.0 19.37 1.256 2.006
8.438 125.7 19.37 9.500
7567.49 0 125.0 19.37 1.256 2.007
8.455 125.7 19.37 9.500
7567.15 0 125.0 19.37 1.255 2.007
8.470 125.7 19.37 9.500
7566.85 0 125.1 19.37 1.255 2.007
8.483 125.7 19.37 9.500
7566.54 0 125.1 19.37 1.255 2.008
8.497 125.8 19.37 9.500
7566.27 0 125.1 19.37 1.255 2.008
8.513 125.8 19.37 9.500
7566.00 0 125.1 19.37 1.255 2.008
8.530 125.8 19.37 9.500
7565.72 0 125.1 19.37 1.254 2.009
8.543 125.8 19.37 9.500
7565.50 0 125.1 19.37 1.254 2.009
8.560 125.8 19.37 9.500
7565.28 0 125.1 19.37 1.254 2.009
8.577 125.8 19.37 9.500
7565.07 0 125.1 19.37 1.254 2.010
8.594 125.8 19.37 9.500
7564.85 0 125.1 19.37 1.254 2.010
8.607 125.8 19.37 9.500
7564.65 0 125.1 19.37 1.254 2.010
8.624 125.8 19.37 9.500
7564.48 0 125.1 19.37 1.254 2.011
8.641 125.8 19.37 9.500
7564.32 0 125.1 19.37 1.254 2.011
8.656 125.8 19.37 9.500
7564.13 0 125.1 19.37 1.254 2.011
8.672 125.8 19.37 9.500
7563.97 0 125.2 19.37 1.253 2.012
8.687 125.8 19.37 9.500
7563.83 0 125.2 19.37 1.253 2.012
8.702 125.8 19.37 9.500
7563.68 0 125.2 19.37 1.253 2.013
8.716 125.8 19.37 9.500
7563.52 0 125.2 19.37 1.253 2.013
8.731 125.8 19.37 9.500
7563.39 0 125.2 19.37 1.253 2.013
8.747 125.8 19.37 9.500
7563.26 0 125.2 19.37 1.253 2.014
8.765 125.8 19.37 9.500
7563.16 0 125.2 19.37 1.253 2.014
8.781 125.8 19.37 9.500
7563.03 0 125.2 19.37 1.253 2.014
8.794 125.8 19.37 9.500
7562.94 0 125.2 19.37 1.253 2.015
8.811 125.8 19.37 9.500
7562.82 0 125.2 19.37 1.253 2.015
8.830 125.8 19.37 9.500
7562.70 0 125.2 19.37 1.253 2.015
8.845 125.8 19.37 9.500
7562.61 0 125.2 19.37 1.253 2.016
8.859 125.8 19.37 9.500
7562.52 0 125.2 19.37 1.253 2.016
8.875 125.8 19.37 9.500
7562.43 0 125.2 19.37 1.253 2.016
8.891 125.8 19.37 9.500
7562.33 0 125.2 19.37 1.252 2.017
8.909 125.8 19.37 9.500
7562.25 0 125.2 19.37 1.252 2.017
8.927 125.8 19.37 9.500
7562.18 0 125.2 19.37 1.252 2.017
8.943 125.8 19.37 9.500
7562.12 0 125.2 19.37 1.252 2.018
8.956 125.8 19.37 9.500
7562.02 0 125.2 19.37 1.252 2.018
8.973 125.8 19.37 9.500
7561.95 0 125.2 19.37 1.252 2.018
8.992 125.8 19.37 9.500
7561.88 0 125.2 19.37 1.252 2.019
9.007 125.9 19.37 9.500
7561.81 0 125.2 19.37 1.252 2.019
9.023 125.9 19.37 9.500
7561.74 0 125.2 19.37 1.252 2.020
9.041 125.9 19.37 9.500
7561.67 0 125.2 19.37 1.252 2.020
9.058 125.9 19.37 9.500
7561.60 0 125.2 19.37 1.252 2.020
9.076 125.9 19.37 9.500
7561.55 0 125.2 19.37 1.252 2.021
9.093 125.9 19.37 9.500
7561.50 0 125.2 19.37 1.252 2.021
9.111 125.9 19.37 9.500
7561.44 0 125.2 19.37 1.252 2.021
9.128 125.9 19.37 9.500
7561.37 0 125.2 19.37 1.252 2.022
9.146 125.9 19.37 9.500
7561.33 0 125.2 19.37 1.252 2.022
9.161 125.9 19.37 9.500
7561.27 0 125.2 19.37 1.252 2.022
9.179 125.9 19.37 9.500
7561.23 0 125.2 19.37 1.252 2.023
9.197 125.9 19.37 9.500
7561.18 0 125.2 19.37 1.252 2.023
9.214 125.9 19.37 9.500
7561.13 0 125.2 19.37 1.252 2.023
9.232 125.9 19.37 9.500
7561.10 0 125.2 19.37 1.252 2.024
9.250 125.9 19.37 9.500
7561.06 0 125.2 19.37 1.252 2.024
9.267 125.9 19.37 9.500
7561.02 0 125.3 19.37 1.252 2.024
9.281 125.9 19.37 9.500
7560.98 0 125.3 19.37 1.252 2.025
9.297 125.9 19.37 9.500
7560.94 0 125.3 19.37 1.252 2.025
9.312 125.9 19.37 9.500
7560.89 0 125.3 19.37 1.252 2.025
9.329 125.9 19.37 9.500
7560.85 0 125.3 19.37 1.252 2.026
9.347 125.9 19.37 9.500
7560.81 0 125.3 19.37 1.252 2.026
9.363 125.9 19.37 9.500
7560.77 0 125.3 19.37 1.252 2.027
9.381 125.9 19.37 9.500
7560.74 0 125.3 19.37 1.252 2.027
9.402 125.9 19.37 9.500
7560.69 0 125.3 19.37 1.252 2.027
9.418 125.9 19.37 9.500
7560.65 0 125.3 19.37 1.252 2.028
9.436 125.9 19.37 9.500
7560.63 0 125.3 19.37 1.252 2.028
9.454 125.9 19.37 9.500
7560.59 0 125.3 19.37 1.252 2.028
9.472 125.9 19.37 9.500
7560.57 0 125.3 19.37 1.252 2.029
9.490 125.9 19.37 9.500
7560.53 0 125.3 19.37 1.252 2.029
9.507 125.9 19.37 9.500
7560.49 0 125.3 19.37 1.252 2.029
9.525 125.9 19.37 9.500
7560.45 0 125.3 19.37 1.252 2.030
9.545 125.9 19.37 9.500
7560.42 0 125.3 19.37 1.251 2.030
9.565 125.9 19.37 9.500
7560.38 0 125.3 19.37 1.251 2.030
9.579 125.9 19.37 9.500
7560.34 0 125.3 19.37 1.251 2.031
9.599 125.9 19.37 9.500
7560.31 0 125.3 19.37 1.251 2.031
9.616 125.9 19.37 9.500
7560.29 0 125.3 19.37 1.251 2.031
9.636 125.9 19.37 9.500
7560.26 0 125.3 19.37 1.251 2.032
9.651 125.9 19.37 9.500
7560.22 0 125.3 19.37 1.251 2.032
9.670 125.9 19.37 9.500
7560.19 0 125.3 19.37 1.251 2.032
9.689 125.9 19.37 9.500
7560.17 0 125.3 19.37 1.251 2.033
9.707 125.9 19.37 9.500
7560.12 0 125.3 19.37 1.251 2.033
9.724 125.9 19.37 9.500
7560.10 0 125.3 19.37 1.251 2.033
9.743 125.9 19.37 9.500
7560.07 0 125.3 19.37 1.251 2.034
9.762 125.9 19.37 9.500
7560.04 0 125.3 19.37 1.251 2.034
9.782 125.9 19.37 9.500
7560.01 0 125.3 19.37 1.251 2.034
9.801 125.9 19.37 9.500
7559.99 0 125.3 19.37 1.251 2.035
9.819 125.9 19.37 9.500
7559.96 0 125.3 19.37 1.251 2.035
9.835 125.9 19.37 9.500
7559.95 0 125.3 19.37 1.251 2.035
9.856 125.9 19.37 9.500
7559.92 0 125.3 19.37 1.251 2.036
9.873 125.9 19.37 9.500
7559.90 0 125.3 19.37 1.251 2.036
9.890 125.9 19.37 9.500
7559.87 0 125.3 19.37 1.251 2.037
9.909 125.9 19.37 9.500
7559.84 0 125.3 19.37 1.251 2.037
9.931 125.9 19.37 9.500
7559.82 0 125.3 19.37 1.251 2.037
9.950 125.9 19.37 9.500
7559.79 0 125.3 19.37 1.251 2.038
9.969 125.9 19.37 9.500
7559.76 0 125.3 19.37 1.251 2.038
9.986 125.9 19.37 9.500
7559.74 0 125.3 19.37 1.251 2.038
10.00 125.9 19.37 9.500
7559.73 0 125.3 19.37 1.251 2.039
10.02 125.9 19.37 9.500
7559.69 0 125.3 19.37 1.251 2.039
10.04 125.9 19.37 9.500
7559.67 0 125.3 19.37 1.251 2.039
10.06 125.9 19.37 9.500
7559.65 0 125.3 19.37 1.251 2.040
10.08 125.9 19.37 9.500
7559.64 0 125.3 19.37 1.251 2.040
10.10 125.9 19.37 9.500
7559.60 0 125.3 19.37 1.251 2.040
10.12 125.9 19.37 9.500
7559.58 0 125.3 19.37 1.251 2.041
10.14 125.9 19.37 9.500
7559.56 0 125.3 19.37 1.251 2.041
10.16 125.9 19.37 9.500
7559.54 0 125.3 19.37 1.251 2.041
10.18 125.9 19.37 9.500
7559.52 0 125.3 19.37 1.251 2.042
10.20 125.9 19.37 9.500
7559.50 0 125.3 19.37 1.251 2.042
10.22 125.9 19.37 9.500
7559.48 0 125.3 19.37 1.251 2.042
10.23 125.9 19.37 9.500
7559.46 0 125.3 19.37 1.251 2.043
10.25 125.9 19.37 9.500
7559.44 0 125.3 19.37 1.251 2.043
10.27 125.9 19.37 9.500
7559.42 0 125.3 19.37 1.251 2.043
10.29 125.9 19.37 9.500
7559.41 0 125.3 19.37 1.251 2.044
10.31 125.9 19.37 9.500
7559.38 0 125.3 19.37 1.251 2.044
10.33 125.9 19.37 9.500
7559.34 0 125.3 19.37 1.251 2.045
10.35 125.9 19.37 9.500
7559.31 0 125.3 19.37 1.251 2.045
10.37 125.9 19.37 9.500
7559.30 0 125.3 19.37 1.251 2.045
10.39 125.9 19.37 9.500
7559.28 0 125.3 19.37 1.251 2.046
10.41 125.9 19.37 9.500
7559.25 0 125.3 19.37 1.251 2.046
10.43 125.9 19.37 9.500
7559.25 0 125.3 19.37 1.251 2.046
10.45 125.9 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7
4.28E-05 | -0.01 0.00 -0.99 0.10 0.00 -0.01 0.00
2.93E-04 | 0.01 0.00 -0.10 -0.99 0.02 0.00 0.00
4.41E-02 | -0.98 -0.02 0.01 -0.01 0.00 -0.20 -0.01
3.93E-02 | -0.20 0.00 0.00 0.00 0.00 0.98 0.03
6.14E+00 | 0.00 0.45 0.00 0.00 -0.02 0.03 -0.89
1.20E+01 | 0.02 -0.89 0.00 0.00 -0.01 0.02 -0.45
1.92E+03 | 0.00 0.00 0.00 0.02 1.00 0.00 -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 125.275 +/- 0.238017 1
2 2 1 gaussian Sigma keV 19.3655 +/- 3.28749 1
3 3 1 gaussian norm 1.25116 +/- 0.114921E-01 1
4 4 2 powerlaw PhoIndex 2.04625 +/- 0.844666 1
5 5 2 powerlaw norm 10.4491 +/- 43.8518 1
6 6 3 gaussian LineE keV 125.876 +/- 0.229041 2
7 7 3 gaussian Sigma keV 19.3655 +/- 2.89391 2
8 3 3 gaussian norm 1.25116 = par 3 2
9 8 4 powerlaw PhoIndex 9.50000 +/- -1.00000 2
10 5 4 powerlaw norm 10.4491 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 7559.245 using 198 PHA bins.
Reduced chi-squared = 39.78550 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 ( 38.372) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 38.372) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.172 photons ( 2.4273E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.137 photons ( 2.3573E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:10:09 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.380 +/- 1.0635E-02
Net count rate (cts/s) for file 2 3.380 +/- 1.0635E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 119993.8 using 168 PHA bins.
Reduced chi-squared = 749.9612 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 7981.559 using 168 PHA bins.
Reduced chi-squared = 49.88474 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
618.234 -3 87.10 11.68 0.2008 0.8920
0.6384 88.08 11.00 0.8876
349.493 -4 82.17 10.21 0.1910 0.8676
0.5811 85.05 10.33 0.8685
333.818 -5 83.16 9.809 0.1903 0.8821
0.6166 85.33 9.987 0.8818
327.862 -6 82.94 9.359 0.1952 0.8851
0.6241 85.29 10.26 0.8851
327.535 -7 82.90 9.460 0.1959 0.8857
0.6255 85.30 10.12 0.8858
327.514 -8 82.91 9.435 0.1957 0.8855
0.6252 85.29 10.15 0.8857
327.514 0 82.91 9.435 0.1957 0.8855
0.6252 85.29 10.15 0.8857
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.34E-06 | 0.00 0.00 -0.22 0.62 -0.46 0.00 0.00 0.59
1.81E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.68E-05 | 0.00 0.01 -0.97 -0.12 0.14 0.00 0.04 -0.13
1.43E-03 | 0.03 0.02 -0.03 -0.34 -0.86 0.03 0.18 -0.33
4.42E-03 | -0.01 -0.09 0.04 0.07 0.15 0.01 0.98 0.07
8.99E-02 | 0.92 0.35 0.00 0.01 0.03 -0.20 0.04 0.01
1.14E-01 | -0.26 0.14 0.00 -0.01 -0.02 -0.95 0.02 -0.01
1.04E-01 | -0.30 0.92 0.01 0.01 0.03 0.22 0.08 0.01
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 82.9103 +/- 0.304433 1
2 2 1 gaussian Sigma keV 9.43515 +/- 0.318182 1
3 3 1 gaussian norm 0.195743 +/- 0.629588E-02 1
4 4 2 powerlaw PhoIndex 0.885504 +/- 0.150864E-01 1
5 5 2 powerlaw norm 0.625246 +/- 0.370145E-01 1
6 6 3 gaussian LineE keV 85.2912 +/- 0.334800 2
7 7 3 gaussian Sigma keV 10.1486 +/- 0.711722E-01 2
8 3 3 gaussian norm 0.195743 = par 3 2
9 8 4 powerlaw PhoIndex 0.885651 +/- 0.145025E-01 2
10 5 4 powerlaw norm 0.625246 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 327.5141 using 168 PHA bins.
Reduced chi-squared = 2.046963 for 160 degrees of freedom
Null hypothesis probability = 1.358E-13
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 82.4183 83.3963 ( -0.491959 , 0.486038 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 84.7552 85.8269 ( -0.536041 , 0.535645 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.344 photons ( 1.6384E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.343 photons ( 1.6450E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w31_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
27.68145
=====best line=====
82.9074 0.304784
=====best sigma=====
9.43911 0.318528
=====norm=====
0.195744 0.629805E-02
=====phoindx=====
0.885489 0.150859E-01
=====pow_norm=====
0.625074 0.368530E-01
=====best line=====
85.2925 0.335367
=====best sigma=====
10.1344 0.702565E-01
=====norm=====
0.195744 par
=====phoindx=====
0.885586 0.145017E-01
=====pow_norm=====
0.625074 par
=====redu_chi=====
2.046991
=====slow error=====
-0.489349 0.488922
=====fast error=====
-0.536842 0.534004
=====area_flux=====
1.343
=====area_flux_f=====
1.343
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.826168 8.566768
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 13 1 640 2000 1326.5184 7.826168 0.195744 0.629805E-02 9.43911 0.318528 0.885489 0.150859E-01 0.625074 0.368530E-01 1.343 640 2000 1364.68 8.566768 0.195744 0.629805E-02 10.1344 0.702565E-01 0.885586 0.145017E-01 0.625074 0.368530E-01 1.343 2.046991 0
=====redu_chi=====
203.6868
=====best line=====
125.275 0.238017
=====best sigma=====
19.3655 3.28749
=====norm=====
1.25116 0.114921E-01
=====phoindx=====
2.04625 0.844666
=====pow_norm=====
10.4491 43.8518
=====best line=====
125.876 0.229041
=====best sigma=====
19.3655 2.89391
=====norm=====
1.25116 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
10.4491 par
=====redu_chi=====
39.78550
=====area_flux=====
1.172
=====area_flux_f=====
1.137
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.826168 8.566768
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 13 1 1600 3200 2004.4 7.826168 1.25116 0.114921E-01 309.848 52.59984 2.04625 0.844666 10.4491 43.8518 1.172 1600 3200 2014.016 8.566768 1.25116 0.114921E-01 309.848 46.30256 9.50000 -1.00000 10.4491 43.8518 1.137 39.78550 1
=====redu_chi=====
49.88474
=====best line=====
82.9103 0.304433
=====best sigma=====
9.43515 0.318182
=====norm=====
0.195743 0.629588E-02
=====phoindx=====
0.885504 0.150864E-01
=====pow_norm=====
0.625246 0.370145E-01
=====best line=====
85.2912 0.334800
=====best sigma=====
10.1486 0.711722E-01
=====norm=====
0.195743 par
=====phoindx=====
0.885651 0.145025E-01
=====pow_norm=====
0.625246 par
=====redu_chi=====
2.046963
=====slow error=====
-0.491959 0.486038
=====fast error=====
-0.536041 0.535645
=====area_flux=====
1.344
=====area_flux_f=====
1.343
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.823976 8.573488
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 13 1 640 2000 1326.5648 7.823976 0.195743 0.629588E-02 9.43515 0.318182 0.885504 0.150864E-01 0.625246 0.370145E-01 1.344 640 2000 1364.6592 8.573488 0.195743 0.629588E-02 10.1486 0.711722E-01 0.885651 0.145025E-01 0.625246 0.370145E-01 1.343 2.046963 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:10:10 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.348 +/- 1.0584E-02
Net count rate (cts/s) for file 2 3.348 +/- 1.0584E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 133597.2 using 168 PHA bins.
Reduced chi-squared = 834.9822 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 8693.165 using 168 PHA bins.
Reduced chi-squared = 54.33228 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
2471.65 -3 82.32 16.58 0.2601 1.010
0.7877 82.59 16.19 1.001
560.422 -3 73.73 8.452 0.1677 0.8600
0.5453 75.48 8.508 0.8651
550.058 -2 75.26 10.28 0.2103 0.8865
0.5915 77.08 14.29 0.8861
474.187 -3 76.02 9.788 0.1892 0.9566
0.7755 78.11 9.133 0.9538
385.515 -4 75.84 9.674 0.2144 0.9818
0.8794 77.75 12.30 0.9809
325.586 -5 75.91 9.424 0.2056 0.9782
0.8841 77.88 9.849 0.9782
324.691 0 75.89 9.467 0.2071 0.9783
0.8836 77.83 9.927 0.9785
324.155 0 75.88 9.501 0.2083 0.9784
0.8831 77.80 9.979 0.9786
323.446 -1 75.84 9.632 0.2122 0.9787
0.8816 77.75 10.23 0.9791
323.222 -2 75.85 9.655 0.2133 0.9790
0.8817 77.74 10.13 0.9794
323.207 -3 75.85 9.656 0.2135 0.9796
0.8834 77.74 10.16 0.9799
323.206 0 75.85 9.657 0.2135 0.9795
0.8835 77.74 10.16 0.9799
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.60E-06 | 0.00 0.00 -0.24 0.66 -0.35 0.00 0.00 0.63
1.95E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.84E-05 | 0.00 0.01 -0.97 -0.16 0.10 0.00 0.04 -0.16
2.40E-03 | 0.04 0.00 0.00 -0.26 -0.92 0.04 0.17 -0.24
3.55E-03 | 0.00 -0.08 0.04 0.05 0.16 0.01 0.98 0.05
7.88E-02 | 0.72 0.69 0.01 0.01 0.04 -0.04 0.05 0.01
1.11E-01 | -0.49 0.47 0.01 -0.01 -0.04 -0.73 0.05 -0.01
9.09E-02 | -0.49 0.54 0.01 0.01 0.01 0.68 0.03 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.8538 +/- 0.298692 1
2 2 1 gaussian Sigma keV 9.65682 +/- 0.298453 1
3 3 1 gaussian norm 0.213480 +/- 0.604276E-02 1
4 4 2 powerlaw PhoIndex 0.979547 +/- 0.138077E-01 1
5 5 2 powerlaw norm 0.883460 +/- 0.490181E-01 1
6 6 3 gaussian LineE keV 77.7404 +/- 0.318078 2
7 7 3 gaussian Sigma keV 10.1560 +/- 0.636386E-01 2
8 3 3 gaussian norm 0.213480 = par 3 2
9 8 4 powerlaw PhoIndex 0.979907 +/- 0.132587E-01 2
10 5 4 powerlaw norm 0.883460 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 323.2062 using 168 PHA bins.
Reduced chi-squared = 2.020039 for 160 degrees of freedom
Null hypothesis probability = 4.161E-13
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 75.3816 76.3252 ( -0.472183 , 0.471474 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 77.2382 78.2402 ( -0.502167 , 0.499794 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.300 photons ( 1.5516E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.298 photons ( 1.5560E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:10:10 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 8.054 +/- 1.6416E-02
Net count rate (cts/s) for file 2 8.054 +/- 1.6416E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.706 +/- 1.9532E-02( 58.4% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.706 +/- 1.9532E-02( 58.4% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 1865859. using 198 PHA bins.
Reduced chi-squared = 9820.312 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 42203.06 using 198 PHA bins.
Reduced chi-squared = 222.1214 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
21127.1 -3 124.1 19.15 0.4826 2.908
0.3425 120.0 19.20 2.850
9002.83 -2 110.2 19.32 1.483 6.840
0.1318 109.2 19.32 7.088
8198.78 0 112.1 19.36 1.501 8.787
2.3561E-02 111.4 19.35 8.787
7764.38 0 113.4 19.36 1.500 9.356
1.1361E-02 112.8 19.36 9.413
7477.81 0 114.5 19.37 1.488 9.489
1.4891E-03 113.9 19.36 9.468
7278.00 0 115.4 19.37 1.473 9.496
5.5929E-04 114.6 19.37 9.486
7134.01 0 116.1 19.37 1.458 9.498
2.7276E-04 115.2 19.37 9.499
7030.39 0 116.6 19.37 1.445 9.500
1.1313E-04 115.6 19.37 9.500
6957.84 0 117.1 19.37 1.433 9.500
2.9290E-05 116.0 19.37 9.500
6905.69 0 117.5 19.37 1.424 9.500
7.6703E-06 116.2 19.37 9.500
6867.34 0 117.8 19.37 1.416 9.500
2.1609E-06 116.4 19.37 9.500
6840.23 0 118.0 19.37 1.409 9.500
7.6881E-07 116.6 19.37 9.500
6783.04 0 118.5 19.37 1.393 9.500
1.1174E-09 116.8 19.37 9.500
6769.17 0 118.6 19.37 1.389 9.500
1.3872E-10 116.8 19.37 9.500
6759.79 0 118.7 19.37 1.387 9.500
1.6290E-11 116.8 19.37 9.500
6753.33 0 118.7 19.37 1.385 9.500
9.1646E-13 116.8 19.37 9.500
Fit parameter 5 has pegged
6725.14 0 118.7 19.37 1.375 9.500
0.000 116.5 19.36 9.500
Fit parameter 5 has pegged
6718.67 0 118.7 19.37 1.372 9.500
0.000 116.3 19.36 9.500
Fit parameter 5 has pegged
6717.21 0 118.7 19.37 1.371 9.500
0.000 116.2 19.36 9.500
Fit parameter 5 has pegged
6710.95 0 118.8 19.37 1.368 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
6705.25 0 118.8 19.37 1.366 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
6700.12 0 118.9 19.37 1.364 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
6695.48 0 119.0 19.37 1.362 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
6691.21 0 119.0 19.37 1.360 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
6687.35 0 119.1 19.37 1.359 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
6683.83 0 119.1 19.37 1.357 9.500
0.000 116.2 19.37 9.500
Fit parameter 5 has pegged
6680.61 0 119.2 19.37 1.355 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6677.63 0 119.2 19.37 1.354 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6674.92 0 119.3 19.37 1.353 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6672.47 0 119.3 19.37 1.352 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6670.19 0 119.4 19.37 1.350 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6668.09 0 119.4 19.37 1.349 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6666.18 0 119.4 19.37 1.348 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6664.40 0 119.5 19.37 1.347 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6662.77 0 119.5 19.37 1.346 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6661.29 0 119.6 19.37 1.345 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6659.91 0 119.6 19.37 1.345 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6658.65 0 119.6 19.37 1.344 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6657.48 0 119.7 19.37 1.343 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6656.37 0 119.7 19.37 1.342 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6655.40 0 119.7 19.37 1.342 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6654.50 0 119.7 19.37 1.341 9.500
0.000 116.3 19.37 9.500
Fit parameter 5 has pegged
6653.63 0 119.8 19.37 1.341 9.500
0.000 116.4 19.36 9.500
Fit parameter 5 has pegged
6652.88 0 119.8 19.37 1.340 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
6652.13 0 119.8 19.37 1.339 9.500
0.000 116.4 19.37 9.500
Fit parameter 5 has pegged
6651.49 0 119.8 19.37 1.339 9.500
0.000 116.4 19.36 9.500
Fit parameter 5 has pegged
6650.85 0 119.8 19.37 1.338 9.500
0.000 116.4 19.36 9.500
Fit parameter 5 has pegged
6650.26 0 119.9 19.37 1.338 9.500
0.000 116.4 19.36 9.500
Fit parameter 5 has pegged
6649.72 0 119.9 19.37 1.338 9.500
0.000 116.4 19.36 9.500
Fit parameter 5 has pegged
6649.22 0 119.9 19.37 1.337 9.500
0.000 116.4 19.36 9.500
Fit parameter 5 has pegged
6648.73 0 119.9 19.37 1.337 9.500
0.000 116.4 19.36 9.500
Fit parameter 5 has pegged
6648.29 0 119.9 19.37 1.336 9.500
0.000 116.4 19.36 9.500
Fit parameter 5 has pegged
6647.87 0 120.0 19.37 1.336 9.500
0.000 116.4 19.35 9.500
Fit parameter 5 has pegged
6647.49 0 120.0 19.37 1.336 9.500
0.000 116.4 19.35 9.500
Fit parameter 5 has pegged
6647.08 0 120.0 19.37 1.335 9.500
0.000 116.4 19.35 9.500
Fit parameter 5 has pegged
6646.78 0 120.0 19.37 1.335 9.500
0.000 116.4 19.35 9.500
Fit parameter 5 has pegged
6646.44 0 120.0 19.37 1.335 9.500
0.000 116.4 19.35 9.500
Fit parameter 5 has pegged
6646.14 0 120.0 19.37 1.334 9.500
0.000 116.4 19.34 9.500
Fit parameter 5 has pegged
6645.84 0 120.0 19.37 1.334 9.500
0.000 116.4 19.34 9.500
Fit parameter 5 has pegged
6645.58 0 120.0 19.37 1.334 9.500
0.000 116.4 19.34 9.500
Fit parameter 5 has pegged
6645.36 0 120.1 19.37 1.333 9.500
0.000 116.4 19.34 9.500
Fit parameter 5 has pegged
6645.10 0 120.1 19.37 1.333 9.500
0.000 116.5 19.33 9.500
Fit parameter 5 has pegged
6644.86 0 120.1 19.37 1.333 9.500
0.000 116.5 19.33 9.500
Fit parameter 5 has pegged
6644.66 0 120.1 19.37 1.333 9.500
0.000 116.5 19.33 9.500
Fit parameter 5 has pegged
6644.47 0 120.1 19.37 1.332 9.500
0.000 116.5 19.33 9.500
Fit parameter 5 has pegged
6644.28 0 120.1 19.37 1.332 9.500
0.000 116.5 19.33 9.500
Fit parameter 5 has pegged
6644.09 0 120.1 19.37 1.332 9.500
0.000 116.5 19.33 9.500
Fit parameter 5 has pegged
6643.93 0 120.1 19.37 1.332 9.500
0.000 116.5 19.32 9.500
Fit parameter 5 has pegged
6643.76 0 120.1 19.37 1.332 9.500
0.000 116.5 19.32 9.500
Fit parameter 5 has pegged
6643.62 0 120.1 19.37 1.331 9.500
0.000 116.5 19.32 9.500
Fit parameter 5 has pegged
6643.47 0 120.1 19.37 1.331 9.500
0.000 116.5 19.32 9.500
Fit parameter 5 has pegged
6643.33 0 120.1 19.37 1.331 9.500
0.000 116.5 19.32 9.500
Fit parameter 5 has pegged
6643.21 0 120.1 19.37 1.331 9.500
0.000 116.5 19.32 9.500
Fit parameter 5 has pegged
6643.06 0 120.2 19.37 1.331 9.500
0.000 116.5 19.31 9.500
Fit parameter 5 has pegged
6642.95 0 120.2 19.37 1.330 9.500
0.000 116.5 19.31 9.500
Fit parameter 5 has pegged
6642.85 0 120.2 19.37 1.330 9.500
0.000 116.5 19.31 9.500
Fit parameter 5 has pegged
6642.74 0 120.2 19.37 1.330 9.500
0.000 116.5 19.31 9.500
Fit parameter 5 has pegged
6642.64 0 120.2 19.37 1.330 9.500
0.000 116.5 19.31 9.500
Fit parameter 5 has pegged
6642.56 0 120.2 19.37 1.330 9.500
0.000 116.5 19.31 9.500
Fit parameter 5 has pegged
6642.47 0 120.2 19.37 1.330 9.500
0.000 116.5 19.31 9.500
Fit parameter 5 has pegged
6642.37 0 120.2 19.37 1.330 9.500
0.000 116.5 19.31 9.500
Fit parameter 5 has pegged
6642.29 0 120.2 19.37 1.329 9.500
0.000 116.5 19.30 9.500
Fit parameter 5 has pegged
6642.20 0 120.2 19.37 1.329 9.500
0.000 116.5 19.30 9.500
Fit parameter 5 has pegged
6642.13 0 120.2 19.37 1.329 9.500
0.000 116.5 19.30 9.500
Fit parameter 5 has pegged
6642.07 0 120.2 19.37 1.329 9.500
0.000 116.5 19.30 9.500
Fit parameter 5 has pegged
6641.97 0 120.2 19.37 1.329 9.500
0.000 116.6 19.30 9.500
Fit parameter 5 has pegged
6641.92 0 120.2 19.37 1.329 9.500
0.000 116.6 19.30 9.500
Fit parameter 5 has pegged
6641.85 0 120.2 19.37 1.329 9.500
0.000 116.6 19.30 9.500
Fit parameter 5 has pegged
6641.78 0 120.2 19.37 1.329 9.500
0.000 116.6 19.30 9.500
Fit parameter 5 has pegged
6641.74 0 120.2 19.37 1.329 9.500
0.000 116.6 19.30 9.500
Fit parameter 5 has pegged
6641.66 0 120.2 19.37 1.328 9.500
0.000 116.6 19.29 9.500
Fit parameter 5 has pegged
6641.63 0 120.2 19.37 1.328 9.500
0.000 116.6 19.29 9.500
Fit parameter 5 has pegged
6641.59 0 120.2 19.37 1.328 9.500
0.000 116.6 19.29 9.500
Fit parameter 5 has pegged
6641.51 0 120.2 19.37 1.328 9.500
0.000 116.6 19.29 9.500
Fit parameter 5 has pegged
6641.48 0 120.2 19.37 1.328 9.500
0.000 116.6 19.29 9.500
Fit parameter 5 has pegged
6641.45 0 120.2 19.37 1.328 9.500
0.000 116.6 19.29 9.500
Fit parameter 5 has pegged
6641.40 0 120.2 19.37 1.328 9.500
0.000 116.6 19.29 9.500
Fit parameter 5 has pegged
6641.36 0 120.2 19.37 1.328 9.500
0.000 116.6 19.29 9.500
Fit parameter 5 has pegged
6641.32 0 120.2 19.37 1.328 9.500
0.000 116.6 19.29 9.500
Fit parameter 5 has pegged
6641.28 0 120.2 19.37 1.328 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6641.24 0 120.2 19.37 1.328 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6641.22 0 120.2 19.37 1.328 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6641.19 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6641.16 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6641.11 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6641.10 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6641.06 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6641.01 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.97 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.97 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
6640.93 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.90 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.86 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.84 1 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.83 1 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.81 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.80 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.78 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.77 2 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
6640.74 1 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.72 1 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.69 0 120.3 19.37 1.327 9.500
0.000 116.6 19.28 9.500
Fit parameter 5 has pegged
6640.69 1 120.3 19.37 1.326 9.500
0.000 116.6 19.28 9.500
6640.69 5 120.3 19.37 1.326 9.500
0.000 116.6 19.28 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.64E-05 | -0.01 0.00 -1.00 -0.01 0.00
3.26E-02 | 0.33 0.01 0.01 -0.94 -0.09
3.97E-02 | -0.94 -0.05 0.01 -0.32 -0.05
6.29E+00 | 0.05 -0.96 0.00 0.04 -0.26
2.43E+00 | 0.00 0.26 0.00 0.10 -0.96
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 120.281 +/- 0.237976 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.45142 1
3 3 1 gaussian norm 1.32649 +/- 0.929119E-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 116.625 +/- 0.253912 2
7 7 3 gaussian Sigma keV 19.2762 +/- 1.63385 2
8 3 3 gaussian norm 1.32649 = 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 = 6640.690 using 198 PHA bins.
Reduced chi-squared = 34.95100 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 ( 33.709) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 33.709) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.131 photons ( 2.2739E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.069 photons ( 2.1097E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:10:11 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.348 +/- 1.0584E-02
Net count rate (cts/s) for file 2 3.348 +/- 1.0584E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 164067.8 using 168 PHA bins.
Reduced chi-squared = 1025.424 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 13633.54 using 168 PHA bins.
Reduced chi-squared = 85.20960 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5119.89 -3 85.48 14.37 0.1856 1.049
0.8737 85.53 13.54 1.036
971.444 -4 70.72 16.45 0.2431 0.9267
0.7049 73.19 14.89 0.9318
825.271 -2 79.84 6.100 0.1362 0.9502
0.8039 79.77 8.692 0.9457
385.755 -3 77.45 9.504 0.1881 0.9823
0.9022 77.62 10.23 0.9816
329.582 -4 75.67 10.28 0.2156 0.9814
0.8890 77.75 10.21 0.9818
325.406 -5 75.98 9.908 0.2111 0.9803
0.8885 77.77 10.05 0.9808
323.290 -6 75.89 9.621 0.2131 0.9799
0.8852 77.74 10.21 0.9803
323.215 -7 75.85 9.666 0.2135 0.9797
0.8840 77.74 10.14 0.9801
323.206 -8 75.86 9.654 0.2134 0.9797
0.8842 77.74 10.16 0.9801
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.60E-06 | 0.00 0.00 -0.24 0.66 -0.35 0.00 0.00 0.63
1.95E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.72
1.84E-05 | 0.00 0.01 -0.97 -0.16 0.10 0.00 0.04 -0.16
2.41E-03 | 0.04 0.00 -0.01 -0.26 -0.92 0.04 0.15 -0.25
3.81E-03 | 0.00 -0.08 0.04 0.04 0.13 0.01 0.99 0.05
7.90E-02 | 0.72 0.69 0.01 0.01 0.04 -0.04 0.05 0.01
1.10E-01 | -0.50 0.49 0.01 -0.01 -0.04 -0.71 0.05 -0.01
9.07E-02 | -0.48 0.53 0.01 0.01 0.01 0.70 0.03 0.00
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 75.8564 +/- 0.299045 1
2 2 1 gaussian Sigma keV 9.65435 +/- 0.298739 1
3 3 1 gaussian norm 0.213444 +/- 0.604179E-02 1
4 4 2 powerlaw PhoIndex 0.979727 +/- 0.138053E-01 1
5 5 2 powerlaw norm 0.884191 +/- 0.490410E-01 1
6 6 3 gaussian LineE keV 77.7418 +/- 0.316966 2
7 7 3 gaussian Sigma keV 10.1571 +/- 0.660204E-01 2
8 3 3 gaussian norm 0.213444 = par 3 2
9 8 4 powerlaw PhoIndex 0.980096 +/- 0.132564E-01 2
10 5 4 powerlaw norm 0.884191 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 323.2062 using 168 PHA bins.
Reduced chi-squared = 2.020039 for 160 degrees of freedom
Null hypothesis probability = 4.161E-13
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
1 75.3828 76.3264 ( -0.473541 , 0.470016 )
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Parameter Confidence Range ( 2.706)
6 77.2394 78.2416 ( -0.502319 , 0.499870 )
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.300 photons ( 1.5516E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.298 photons ( 1.5560E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w32_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
54.33228
=====best line=====
75.8538 0.298692
=====best sigma=====
9.65682 0.298453
=====norm=====
0.213480 0.604276E-02
=====phoindx=====
0.979547 0.138077E-01
=====pow_norm=====
0.883460 0.490181E-01
=====best line=====
77.7404 0.318078
=====best sigma=====
10.1560 0.636386E-01
=====norm=====
0.213480 par
=====phoindx=====
0.979907 0.132587E-01
=====pow_norm=====
0.883460 par
=====redu_chi=====
2.020039
=====slow error=====
-0.472183 0.471474
=====fast error=====
-0.502167 0.499794
=====area_flux=====
1.300
=====area_flux_f=====
1.298
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.549256 8.015688
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 14 1 640 2000 1213.6608 7.549256 0.213480 0.604276E-02 9.65682 0.298453 0.979547 0.138077E-01 0.883460 0.490181E-01 1.300 640 2000 1243.8464 8.015688 0.213480 0.604276E-02 10.1560 0.636386E-01 0.979907 0.132587E-01 0.883460 0.490181E-01 1.298 2.020039 0
=====redu_chi=====
222.1214
=====best line=====
120.281 0.237976
=====best sigma=====
19.3655 2.45142
=====norm=====
1.32649 0.929119E-02
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
116.625 0.253912
=====best sigma=====
19.2762 1.63385
=====norm=====
1.32649 par
=====phoindx=====
9.50000 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
34.95100
=====area_flux=====
1.131
=====area_flux_f=====
1.069
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.549256 8.015688
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 14 1 1600 3200 1924.496 7.549256 1.32649 0.929119E-02 309.848 39.22272 9.50000 -1.00000 0.00000 -1.00000 1.131 1600 3200 1866 8.015688 1.32649 0.929119E-02 308.4192 26.1416 9.50000 -1.00000 0.00000 -1.00000 1.069 34.95100 1
=====redu_chi=====
85.20960
=====best line=====
75.8564 0.299045
=====best sigma=====
9.65435 0.298739
=====norm=====
0.213444 0.604179E-02
=====phoindx=====
0.979727 0.138053E-01
=====pow_norm=====
0.884191 0.490410E-01
=====best line=====
77.7418 0.316966
=====best sigma=====
10.1571 0.660204E-01
=====norm=====
0.213444 par
=====phoindx=====
0.980096 0.132564E-01
=====pow_norm=====
0.884191 par
=====redu_chi=====
2.020039
=====slow error=====
-0.473541 0.470016
=====fast error=====
-0.502319 0.499870
=====area_flux=====
1.300
=====area_flux_f=====
1.298
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.548456 8.017512
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 14 1 640 2000 1213.7024 7.548456 0.213444 0.604179E-02 9.65435 0.298739 0.979727 0.138053E-01 0.884191 0.490410E-01 1.300 640 2000 1243.8688 8.017512 0.213444 0.604179E-02 10.1571 0.660204E-01 0.980096 0.132564E-01 0.884191 0.490410E-01 1.298 2.020039 0
xspec11 < xspec_gd.xcm
Xspec 11.3.2ag 17:10:12 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.260 +/- 1.0444E-02
Net count rate (cts/s) for file 2 3.260 +/- 1.0444E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 14 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 14.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 14.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 140570.9 using 168 PHA bins.
Reduced chi-squared = 878.5682 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 7464.022 using 168 PHA bins.
Reduced chi-squared = 46.65014 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
1610.91 -3 82.97 15.27 0.1977 0.9612
0.7039 83.71 14.45 0.9556
1081.67 -4 76.20 7.499 9.6715E-02 0.8852
0.6356 79.00 8.215 0.8878
582.700 -1 78.54 9.544 0.1672 0.8970
0.6210 81.02 9.958 0.8986
484.302 -2 78.19 8.806 0.1862 0.9287
0.6885 80.24 9.457 0.9288
455.749 -2 78.27 9.241 0.1928 0.9527
0.7588 80.48 9.692 0.9529
437.269 -2 78.40 9.145 0.1928 0.9711
0.8227 80.57 9.622 0.9714
425.699 -2 78.45 9.221 0.1946 0.9859
0.8768 80.64 9.684 0.9864
418.545 -2 78.51 9.231 0.1955 0.9977
0.9225 80.69 9.696 0.9984
415.990 -3 78.65 9.335 0.1992 1.032
1.053 80.85 9.804 1.032
407.083 -4 78.72 9.359 0.2005 1.045
1.122 80.91 9.822 1.046
406.352 -5 78.73 9.364 0.2006 1.045
1.127 80.91 9.822 1.046
406.351 -6 78.73 9.363 0.2006 1.045
1.127 80.91 9.822 1.046
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.74E-06 | 0.00 0.00 -0.26 0.68 -0.28 0.00 0.00 0.63
2.02E-06 | 0.00 0.00 -0.01 -0.69 0.00 0.00 0.00 0.73
1.63E-05 | 0.00 0.01 -0.96 -0.17 0.09 0.00 0.01 -0.18
4.07E-03 | 0.05 0.03 -0.01 -0.21 -0.95 0.05 0.03 -0.20
5.90E-02 | -0.15 -0.75 0.00 0.00 0.00 0.11 0.64 0.00
1.25E-01 | 0.20 -0.60 -0.01 -0.01 -0.02 0.31 -0.71 -0.01
8.26E-02 | 0.94 -0.07 0.00 0.01 0.04 -0.28 0.20 0.01
9.21E-02 | 0.24 0.28 0.00 0.02 0.07 0.90 0.22 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 78.7295 +/- 0.289942 1
2 2 1 gaussian Sigma keV 9.36338 +/- 0.292069 1
3 3 1 gaussian norm 0.200612 +/- 0.567367E-02 1
4 4 2 powerlaw PhoIndex 1.04506 +/- 0.146297E-01 1
5 5 2 powerlaw norm 1.12741 +/- 0.652710E-01 1
6 6 3 gaussian LineE keV 80.9086 +/- 0.306280 2
7 7 3 gaussian Sigma keV 9.82192 +/- 0.308251 2
8 3 3 gaussian norm 0.200612 = par 3 2
9 8 4 powerlaw PhoIndex 1.04629 +/- 0.140602E-01 2
10 5 4 powerlaw norm 1.12741 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 406.3506 using 168 PHA bins.
Reduced chi-squared = 2.539691 for 160 degrees of freedom
Null hypothesis probability = 2.208E-23
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.433) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.433) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 ( 1.4927E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.245 photons ( 1.4931E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_511.xcm
Xspec 11.3.2ag 17:10:12 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 7.500 +/- 1.5841E-02
Net count rate (cts/s) for file 2 7.500 +/- 1.5841E-02
2 data sets are in use
XSPEC> Net count rate (cts/s) for file 1 4.240 +/- 1.8974E-02( 56.5% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_reb16_gti_0_hitpat8_slow.pha
Net count rate (cts/s) for file 2 4.240 +/- 1.8974E-02( 56.5% total)
using background file... ae503032010_hxdmkgainhist_tmp/ae503032010_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 = 1370364. using 198 PHA bins.
Reduced chi-squared = 7212.442 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 44233.09 using 198 PHA bins.
Reduced chi-squared = 232.8057 for 190 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
22633.5 -3 124.0 18.56 0.5027 2.950
0.5017 119.8 18.52 2.900
12543.2 -2 112.3 19.34 1.700 6.638
0.1088 112.1 19.20 8.078
11124.7 0 113.5 19.35 1.618 8.470
4.6112E-02 113.4 19.36 9.337
10212.0 0 114.8 19.36 1.564 9.376
7.9342E-03 114.8 19.36 9.495
9552.16 0 115.9 19.36 1.527 9.463
1.4100E-03 116.0 19.36 9.499
9078.18 0 117.0 19.37 1.499 9.486
4.0535E-04 117.0 19.37 9.500
8740.08 0 117.8 19.37 1.478 9.493
8.4424E-05 117.9 19.37 9.500
8499.16 0 118.6 19.37 1.461 9.499
3.9583E-05 118.6 19.37 9.500
8330.88 0 119.2 19.37 1.448 9.500
1.5703E-05 119.1 19.37 9.500
8208.30 0 119.7 19.37 1.437 9.500
3.1995E-06 119.5 19.37 9.500
8121.96 0 120.1 19.37 1.429 9.500
8.8503E-09 119.8 19.37 9.500
7962.24 0 120.9 19.37 1.409 9.500
9.8762E-11 120.2 19.37 9.500
7933.77 0 121.1 19.37 1.405 9.500
2.4893E-11 120.3 19.37 9.500
7914.50 0 121.2 19.37 1.402 9.500
6.3618E-12 120.3 19.37 9.500
7898.78 0 121.3 19.37 1.400 9.500
1.6973E-12 120.4 19.37 9.500
7887.04 0 121.4 19.37 1.398 9.500
5.2328E-13 120.4 19.37 9.500
Fit parameter 5 has pegged
7855.51 0 121.5 19.37 1.390 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
7847.82 0 121.6 19.37 1.387 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
7845.28 0 121.6 19.37 1.386 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
7842.69 0 121.6 19.37 1.385 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
7840.29 0 121.6 19.37 1.384 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
7838.31 0 121.6 19.37 1.384 9.500
0.000 120.0 19.37 9.500
Fit parameter 5 has pegged
7819.68 0 121.7 19.37 1.379 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
7802.90 0 121.8 19.37 1.375 9.500
0.000 120.1 19.37 9.500
Fit parameter 5 has pegged
7787.77 0 121.9 19.37 1.371 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
7774.12 0 121.9 19.37 1.367 9.500
0.000 120.2 19.37 9.500
Fit parameter 5 has pegged
7761.80 0 122.0 19.37 1.363 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
7750.60 0 122.1 19.37 1.360 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
7740.48 0 122.1 19.37 1.357 9.500
0.000 120.3 19.37 9.500
Fit parameter 5 has pegged
7731.19 0 122.2 19.37 1.354 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
7722.82 0 122.3 19.37 1.352 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
7715.13 0 122.3 19.37 1.349 9.500
0.000 120.4 19.37 9.500
Fit parameter 5 has pegged
7708.15 0 122.4 19.37 1.347 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
7701.73 0 122.5 19.37 1.345 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
7695.86 0 122.5 19.37 1.343 9.500
0.000 120.5 19.37 9.500
Fit parameter 5 has pegged
7690.46 0 122.6 19.37 1.341 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
7685.54 0 122.6 19.37 1.340 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
7681.00 0 122.7 19.37 1.338 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
7676.81 0 122.7 19.37 1.336 9.500
0.000 120.6 19.37 9.500
Fit parameter 5 has pegged
7672.99 0 122.8 19.37 1.335 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
7669.46 0 122.8 19.37 1.334 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
7666.19 0 122.9 19.37 1.332 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
7663.19 0 122.9 19.37 1.331 9.500
0.000 120.7 19.37 9.500
Fit parameter 5 has pegged
7660.42 0 122.9 19.37 1.330 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
7657.84 0 123.0 19.37 1.329 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
7655.49 0 123.0 19.37 1.328 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
7653.33 0 123.1 19.37 1.327 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
7651.31 0 123.1 19.37 1.326 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
7649.43 0 123.1 19.37 1.325 9.500
0.000 120.8 19.37 9.500
Fit parameter 5 has pegged
7647.70 0 123.2 19.37 1.325 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
7646.10 0 123.2 19.37 1.324 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
7644.65 0 123.2 19.37 1.323 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
7643.23 0 123.2 19.37 1.323 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
7641.93 0 123.3 19.37 1.322 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
7640.74 0 123.3 19.37 1.321 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
7639.63 0 123.3 19.37 1.321 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
7638.61 0 123.3 19.37 1.320 9.500
0.000 120.9 19.37 9.500
Fit parameter 5 has pegged
7637.64 0 123.4 19.37 1.320 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7636.75 0 123.4 19.37 1.319 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7635.92 0 123.4 19.37 1.319 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7635.13 0 123.4 19.37 1.318 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7634.44 0 123.5 19.37 1.318 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7633.76 0 123.5 19.37 1.318 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7633.10 0 123.5 19.37 1.317 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7632.51 0 123.5 19.37 1.317 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7631.97 0 123.5 19.37 1.317 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7631.46 0 123.5 19.37 1.316 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7630.97 0 123.6 19.37 1.316 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7630.52 0 123.6 19.37 1.316 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7630.08 0 123.6 19.37 1.315 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7629.69 0 123.6 19.37 1.315 9.500
0.000 121.0 19.37 9.500
Fit parameter 5 has pegged
7629.30 0 123.6 19.37 1.315 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7628.97 0 123.6 19.37 1.315 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7628.65 0 123.6 19.37 1.314 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7628.32 0 123.6 19.37 1.314 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7628.04 0 123.7 19.37 1.314 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7627.77 0 123.7 19.37 1.314 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7627.50 0 123.7 19.37 1.314 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7627.24 0 123.7 19.37 1.313 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7627.02 0 123.7 19.37 1.313 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7626.82 0 123.7 19.37 1.313 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7626.62 0 123.7 19.37 1.313 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7626.44 0 123.7 19.37 1.313 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7626.25 0 123.7 19.37 1.313 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7626.09 0 123.7 19.37 1.312 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7625.93 0 123.7 19.37 1.312 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7625.79 0 123.8 19.37 1.312 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7625.63 0 123.8 19.37 1.312 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7625.50 0 123.8 19.37 1.312 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7625.38 0 123.8 19.37 1.312 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7625.26 0 123.8 19.37 1.312 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7625.16 0 123.8 19.37 1.312 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7625.05 0 123.8 19.37 1.312 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.95 0 123.8 19.37 1.312 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.85 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.75 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.67 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.59 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.50 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.41 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.36 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.30 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.23 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.17 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.10 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7624.05 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.98 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.95 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.91 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.87 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.81 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.77 0 123.8 19.37 1.311 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.74 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.70 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.68 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.63 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.60 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.57 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.53 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.49 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.48 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.44 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.41 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.41 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
7623.33 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.30 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.28 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.25 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
Fit parameter 5 has pegged
7623.25 0 123.9 19.37 1.310 9.500
0.000 121.1 19.37 9.500
7623.19 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7623.16 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7623.16 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
7623.11 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7623.07 1 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7623.06 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7623.03 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7623.03 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
7622.98 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.96 1 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.95 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.94 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.92 1 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.91 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.90 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
7622.88 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.87 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.83 1 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.83 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
7622.78 1 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.77 0 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.73 1 123.9 19.37 1.310 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.70 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.69 0 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.67 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.61 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.58 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.54 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.49 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.48 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.45 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.44 0 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
7622.38 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.36 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.33 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.28 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.24 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.20 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.19 1 123.9 19.37 1.309 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.15 1 123.9 19.37 1.308 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.11 1 123.9 19.37 1.308 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.08 1 123.9 19.37 1.308 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.05 1 123.9 19.37 1.308 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7622.00 1 123.9 19.37 1.308 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7621.97 1 123.9 19.37 1.308 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7621.94 1 123.9 19.37 1.308 9.500
0.000 121.2 19.37 9.500
Fit parameter 5 has pegged
7621.91 1 123.9 19.37 1.308 9.500
0.000 121.2 19.37 9.500
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 6 7
4.25E-05 | -0.01 0.00 -1.00 -0.01 0.00
3.79E-02 | -0.97 -0.03 0.01 -0.25 -0.02
3.26E-02 | -0.25 0.00 -0.01 0.97 0.06
7.17E+00 | -0.03 0.91 0.00 -0.03 0.40
4.10E+00 | 0.01 -0.40 0.00 -0.05 0.91
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 123.938 +/- 0.213987 1
2 2 1 gaussian Sigma keV 19.3655 +/- 2.58217 1
3 3 1 gaussian norm 1.30806 +/- 0.834806E-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 121.175 +/- 0.225842 2
7 7 3 gaussian Sigma keV 19.3655 +/- 2.14029 2
8 3 3 gaussian norm 1.30806 = 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 = 7621.915 using 198 PHA bins.
Reduced chi-squared = 40.11534 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 ( 38.690) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 38.690) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 1.166 photons ( 2.3914E-07 ergs)cm**-2 s**-1 (100.000-198.500) DtSet : 1
Upper range 200. reset by matrix bound to 198.
Model flux 1.129 photons ( 2.2801E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_reb16_gti_0_slow.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_reb16_gti_0_fast.pha
with integration time 2.9888E+04
Background file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
xspec11 < xspec_152gd.xcm
Xspec 11.3.2ag 17:10:13 18-Jul-2008
For documentation, notes, and fixes see http://xspec.gsfc.nasa.gov/
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
XSPEC>Querying disabled - assuming answer is no
XSPEC> Net count rate (cts/s) for file 1 3.260 +/- 1.0444E-02
Net count rate (cts/s) for file 2 3.260 +/- 1.0444E-02
2 data sets are in use
XSPEC>XSPEC>XSPEC>XSPEC> ignoring channels 1 - 40 in dataset 1
ignoring channels 125 - 256 in dataset 1
ignoring channels 1 - 40 in dataset 2
ignoring channels 125 - 256 in dataset 2
XSPEC> Model: gaussian<1> + powerlaw<2>
Input parameter value, delta, min, bot, top, and max values for ...
6.5 0.05 0 0 1E+06 1E+06
1:DataGroup 1:gaussian:LineE> 0.1 0.05 0 0 10 20
2:DataGroup 1:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
3:DataGroup 1:gaussian:norm> 1 0.01 -3 -2 9 10
4:DataGroup 1:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
5:DataGroup 1:powerlaw:norm> 90 0.05 0 0 1E+06 1E+06
6:DataGroup 2:gaussian:LineE> 10 0.05 0 0 10 20
7:DataGroup 2:gaussian:Sigma> 1 0.01 0 0 1E+24 1E+24
8:DataGroup 2:gaussian:norm> 0.9 0.01 -3 -2 9 10
9:DataGroup 2:powerlaw:PhoIndex> 1 0.01 0 0 1E+24 1E+24
10:DataGroup 2:powerlaw:norm> ---------------------------------------------------------------------------
---------------------------------------------------------------------------
Model: gaussian<1> + powerlaw<2>
Model Fit Model Component Parameter Unit Value Data
par par comp group
1 1 1 gaussian LineE keV 90.0000 +/- 0.00000 1
2 2 1 gaussian Sigma keV 10.0000 +/- 0.00000 1
3 3 1 gaussian norm 1.00000 +/- 0.00000 1
4 4 2 powerlaw PhoIndex 0.900000 +/- 0.00000 1
5 5 2 powerlaw norm 1.00000 +/- 0.00000 1
6 6 3 gaussian LineE keV 90.0000 +/- 0.00000 2
7 7 3 gaussian Sigma keV 10.0000 +/- 0.00000 2
8 3 3 gaussian norm 1.00000 = par 3 2
9 8 4 powerlaw PhoIndex 0.900000 +/- 0.00000 2
10 5 4 powerlaw norm 1.00000 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 166139.4 using 168 PHA bins.
Reduced chi-squared = 1038.371 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC>XSPEC> Chi-Squared = 11411.13 using 168 PHA bins.
Reduced chi-squared = 71.31957 for 160 degrees of freedom
Null hypothesis probability = 0.00
XSPEC> Chi-Squared Lvl Fit param # 1 2 3 4
5 6 7 8
5295.33 -3 85.53 13.31 0.1806 1.064
0.8704 86.03 12.19 1.052
896.903 -4 75.33 11.74 0.1917 0.9655
0.8637 78.55 10.69 0.9705
636.036 -5 81.04 9.632 0.1767 1.061
1.160 81.70 9.830 1.059
412.445 -6 78.39 9.873 0.2027 1.047
1.135 80.80 9.921 1.048
407.339 -7 78.85 9.143 0.1979 1.044
1.126 80.93 9.724 1.045
406.469 -8 78.70 9.443 0.2016 1.046
1.129 80.90 9.867 1.047
406.369 -9 78.74 9.333 0.2002 1.045
1.127 80.91 9.803 1.046
406.353 -10 78.72 9.375 0.2008 1.045
1.128 80.91 9.830 1.046
406.351 -11 78.73 9.359 0.2006 1.045
1.127 80.91 9.819 1.046
---------------------------------------------------------------------------
Variances and Principal axes :
1 2 3 4 5 6 7 8
1.74E-06 | 0.00 0.00 -0.26 0.68 -0.28 0.00 0.00 0.63
2.02E-06 | 0.00 0.00 -0.01 -0.68 0.00 0.00 0.00 0.73
1.63E-05 | 0.00 0.01 -0.96 -0.17 0.09 0.00 0.01 -0.18
4.07E-03 | 0.05 0.03 -0.01 -0.21 -0.95 0.05 0.03 -0.20
5.91E-02 | -0.15 -0.75 0.00 0.00 0.00 0.11 0.64 0.00
1.25E-01 | 0.20 -0.60 -0.01 -0.01 -0.02 0.30 -0.71 -0.01
8.27E-02 | 0.94 -0.07 0.00 0.01 0.04 -0.28 0.20 0.01
9.22E-02 | 0.24 0.28 0.00 0.02 0.07 0.90 0.22 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 78.7314 +/- 0.290238 1
2 2 1 gaussian Sigma keV 9.35907 +/- 0.292419 1
3 3 1 gaussian norm 0.200552 +/- 0.568036E-02 1
4 4 2 powerlaw PhoIndex 1.04502 +/- 0.146340E-01 1
5 5 2 powerlaw norm 1.12730 +/- 0.653051E-01 1
6 6 3 gaussian LineE keV 80.9089 +/- 0.306397 2
7 7 3 gaussian Sigma keV 9.81884 +/- 0.308454 2
8 3 3 gaussian norm 0.200552 = par 3 2
9 8 4 powerlaw PhoIndex 1.04626 +/- 0.140645E-01 2
10 5 4 powerlaw norm 1.12730 = par 5 2
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 406.3507 using 168 PHA bins.
Reduced chi-squared = 2.539692 for 160 degrees of freedom
Null hypothesis probability = 2.208E-23
XSPEC>Querying disabled - assuming answer is no
XSPEC>Model parameter 8 is already frozen
Model parameter 10 is already frozen
Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.433) > maximum ( 2.000)
XSPEC> Number of variable fit parameters = 0
XSPEC> Number of variable fit parameters = 1
XSPEC> Reduced chi square ( 2.433) > maximum ( 2.000)
XSPEC>Model parameter 6 is already thawed
Model parameter 8 is 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 ( 1.4927E-07 ergs)cm**-2 s**-1 ( 40.000-123.500) DtSet : 1
Upper range 125. reset by matrix bound to 124.
Model flux 1.245 photons ( 1.4931E-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 : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_reb16_gti_0_hitpat8_slow.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
Information for file 2
belonging to plot group 2, data group 2
telescope = SUZAKU , instrument = HXD , channel type = PHA
Current data file : ae503032010_hxdmkgainhist_tmp/ae503032010_gso_w33_reb16_gti_0_hitpat8_fast.pha
with integration time 2.9888E+04
No current background
No current correction
Response (RMF) file : ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
Auxiliary (ARF) file : none
Weighting method is standard
XSPEC> XSPEC: quit
=====gti1=====
2.684652675319762E+08
=====gti=====
=====redu_chi=====
46.65014
=====best line=====
78.7295 0.289942
=====best sigma=====
9.36338 0.292069
=====norm=====
0.200612 0.567367E-02
=====phoindx=====
1.04506 0.146297E-01
=====pow_norm=====
1.12741 0.652710E-01
=====best line=====
80.9086 0.306280
=====best sigma=====
9.82192 0.308251
=====norm=====
0.200612 par
=====phoindx=====
1.04629 0.140602E-01
=====pow_norm=====
1.12741 par
=====redu_chi=====
2.539691
=====area_flux=====
1.250
=====area_flux_f=====
1.245
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.548456 8.017512
=====RES_GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 15 1 640 2000 1259.672 7.548456 0.200612 0.567367E-02 9.36338 0.292069 1.04506 0.146297E-01 1.12741 0.652710E-01 1.250 640 2000 1294.5376 8.017512 0.200612 0.567367E-02 9.82192 0.308251 1.04629 0.140602E-01 1.12741 0.652710E-01 1.245 2.539691 0
=====redu_chi=====
232.8057
=====best line=====
123.938 0.213987
=====best sigma=====
19.3655 2.58217
=====norm=====
1.30806 0.834806E-02
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 -1.00000
=====best line=====
121.175 0.225842
=====best sigma=====
19.3655 2.14029
=====norm=====
1.30806 par
=====phoindx=====
9.50001 -1.00000
=====pow_norm=====
0.00000 par
=====redu_chi=====
40.11534
=====area_flux=====
1.166
=====area_flux_f=====
1.129
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.548456 8.017512
511ULT:Bad Quality
=====RES_511ULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 15 1 1600 3200 1983.008 7.548456 1.30806 0.834806E-02 309.848 41.31472 9.50001 -1.00000 0.00000 -1.00000 1.166 1600 3200 1938.8 8.017512 1.30806 0.834806E-02 309.848 34.24464 9.50001 -1.00000 0.00000 -1.00000 1.129 40.11534 1
=====redu_chi=====
71.31957
=====best line=====
78.7314 0.290238
=====best sigma=====
9.35907 0.292419
=====norm=====
0.200552 0.568036E-02
=====phoindx=====
1.04502 0.146340E-01
=====pow_norm=====
1.12730 0.653051E-01
=====best line=====
80.9089 0.306397
=====best sigma=====
9.81884 0.308454
=====norm=====
0.200552 par
=====phoindx=====
1.04626 0.140645E-01
=====pow_norm=====
1.12730 par
=====redu_chi=====
2.539692
=====area_flux=====
1.250
=====area_flux_f=====
1.245
=====exp=====
2.9888E+04
=====exp=====
2.9888E+04
=====slow_fast error=====
7.548456 8.017512
=====RES_152GDULT=====
2.684652675319762E+08 2.684951555280309E+08 2.9888E+04 15 1 640 2000 1259.7024 7.548456 0.200552 0.568036E-02 9.35907 0.292419 1.04502 0.146340E-01 1.12730 0.653051E-01 1.250 640 2000 1294.5424 8.017512 0.200552 0.568036E-02 9.81884 0.308454 1.04626 0.140645E-01 1.12730 0.653051E-01 1.245 2.539692 0
rm -rf ae503032010_xspec*.log xspec*.xcm xautosav.xcm ae503032010_hxdmkgainhist_tmp/ae503032010dmy.rsp
rm -rf ae503032010_hxdmkgainhist_tmp
-> hxdmkgainhist_gso successful for ae503032010hxd_0_wel.sff.input_name,f,a,"ae503032010hxd_0_wel.sff",,,"HXD event fits file name" hk_name,f,a,"ae503032010hxd_0.hk",,,"HK file name" pin_fitlog_name,f,a,"pin_ghf.tbl",,,"HXD pin fitlog file name" process_id,s,a,"ae503032010",,,"Process ID (aeYYYYMMDD_HHMM_HHMM)" mode,s,h,"hl",,,""-> stdout output from hxdmkgainhist_pin
FFF= ae503032010hxd_0_wel.sff, HK= ae503032010hxd_0.hk TSTART 2.684652675319762E+08, TSOP 2.684951554044957E+08-> hxdmkgainhist_pin successful for ae503032010hxd_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,"ae503032010hxd_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,"2008-07-18",,,"Valid Date (YYYY-MM-DD)for Gain History Files" valid_time,s,a,"17:10:15",,,"Valid Time (hh:mm:ss) for Gain History Files" pin_gainhist_name,f,a,"!ae503032010hxd_0_pin.ghf",,,"HXD pin gainhistory file name" gso_gainhist_name,f,a,"!ae503032010hxd_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 0.023 0.000 0.023 11.79
[ 2] HXDleapsecInit 0.007 0.000 0.007 3.59
[ 3] HXDmkgainhistWriteGHF 0.097 0.011 0.108 55.38
[ 4] HXDmkgainhistWritePHA 0.003 0.001 0.004 2.05
(others) 0.041 0.012 0.053 27.18
--------------------------------------------------------------------------
TOTAL 0.171 0.024 0.195 100.00
-> hxdmkgainhist successful for ae503032010hxd_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,"ae503032010hxd_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: ae503032010hxd_0.hk
2: ae503032010.ehk
HXDpi_init: time duration = 268465267.408931 -- 268495155.405207
Opening GSO calibration files OK
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TEMP_W10_CAL' at hdu=2, col=111 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W11_CAL' at hdu=2, col=112 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W12_CAL' at hdu=2, col=113 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W13_CAL' at hdu=2, col=114 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W20_CAL' at hdu=2, col=115 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W21_CAL' at hdu=2, col=116 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W22_CAL' at hdu=2, col=117 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W23_CAL' at hdu=2, col=118 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W00_CAL' at hdu=2, col=119 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W01_CAL' at hdu=2, col=120 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W02_CAL' at hdu=2, col=121 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W03_CAL' at hdu=2, col=122 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W30_CAL' at hdu=2, col=123 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W31_CAL' at hdu=2, col=124 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W32_CAL' at hdu=2, col=125 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_W33_CAL' at hdu=2, col=126 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T10_CAL' at hdu=2, col=127 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T12_CAL' at hdu=2, col=128 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T14_CAL' at hdu=2, col=129 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T21_CAL' at hdu=2, col=130 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T23_CAL' at hdu=2, col=131 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W2_CAL' at hdu=2, col=132 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P1_CAL' at hdu=2, col=133 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T1_CAL' at hdu=2, col=134 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T00_CAL' at hdu=2, col=135 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T02_CAL' at hdu=2, col=136 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T04_CAL' at hdu=2, col=137 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T31_CAL' at hdu=2, col=138 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_T33_CAL' at hdu=2, col=139 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_W0_CAL' at hdu=2, col=140 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_P0_CAL' at hdu=2, col=141 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_HV_T3_CAL' at hdu=2, col=142 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP4_CAL' at hdu=2, col=143 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP3_CAL' at hdu=2, col=144 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY4_CAL' at hdu=2, col=145 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY3_CAL' at hdu=2, col=146 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM3_CAL' at hdu=2, col=147 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM4_CAL' at hdu=2, col=148 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR3_CAL' at hdu=2, col=149 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CENTER_CAL' at hdu=2, col=150 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP2_CAL' at hdu=2, col=151 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_CAP1_CAL' at hdu=2, col=152 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY2_CAL' at hdu=2, col=153 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BODY1_CAL' at hdu=2, col=154 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM1_CAL' at hdu=2, col=155 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BTM2_CAL' at hdu=2, col=156 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR1_CAL' at hdu=2, col=157 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_TEMP_BAR2_CAL' at hdu=2, col=158 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'T_SAA_HXD' at hdu=2, col=29 in 'ae503032010.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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 4721993
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 4721992/4721993
[ 2] HXDrndInit version 0.2.0
| OK: 4721992/4721992
[ 3] HXDgethkInit version 0.1.0
| OK: 4721992/4721992
[ 4] HXDpiFITS version 2.1.3
| OK: 4721992/4721992
[ 5] HXDpi version 2.1.3
| OK: 4721992/4721992
[ 6] HXD2ndeventFitsWrite version 2.0.4
| OK: 4721992/4721992
GET: 4721992
*** 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 4721992 0 SINGLE
HXD:WEL:EV_TIME 8 8 4721992 4721992 SINGLE
HXD:WEL:MTI 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 4721992 4721992 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_RESERV 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 4721992 4721992 SINGLE
HXD:WEL:DET_TYPE 4 4 4721992 4721992 SINGLE
HXD:WEL:PI_FAST 4 4 9443984 4721992 SINGLE
HXD:WEL:PI_SLOW 4 4 9443984 4721992 SINGLE
HXD:WEL:PI_PIN 16 16 9443984 4721992 SINGLE
HXD:WEL:UPI_FAST 8 8 9443984 4721992 SINGLE
HXD:WEL:UPI_SLOW 8 8 9443984 4721992 SINGLE
HXD:WEL:UPI_PIN 32 32 9443984 4721992 SINGLE
HXD:WEL:PIN_ID 4 4 4721992 4721992 SINGLE
HXD:WEL:UNITID 4 4 4721992 4721992 SINGLE
HXD:WEL:LENGTH_CHK 4 4 4721992 4721992 SINGLE
HXD:WEL:WELTIME 4 4 4721992 4721992 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 4721992 4721992 SINGLE
HXD:WEL:TRIG 4 4 4721992 4721992 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 4721992 4721992 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 4721992 4721992 SINGLE
HXD:WEL:PHA_FAST 4 4 4721992 4721992 SINGLE
HXD:WEL:PHA_SLOW 4 4 4721992 4721992 SINGLE
HXD:WEL:PHA_PIN 16 16 4721992 4721992 SINGLE
HXD:WEL:PACKET_AETIME 8 8 4721992 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 4721992 9442698 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 4721992 4721992 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 4721992 9443984 SINGLE
HXD:WEL:EVENT 204 204 9443984 9443984 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 7471 4720706 SINGLE
HXDpi:EHKDATA 136 136 7471 4720706 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDeventFitsRead 134.680 8.547 143.226 40.26
[ 2] HXDrndInit 2.075 3.111 5.185 1.46
[ 3] HXDgethkInit 1.396 2.880 4.275 1.20
[ 4] HXDpiFITS 3.996 2.971 6.967 1.96
[ 5] HXDpi 39.506 3.199 42.704 12.00
[ 6] HXD2ndeventFitsWrite 131.162 22.222 153.384 43.11
(others) 0.027 0.011 0.038 0.01
--------------------------------------------------------------------------
TOTAL 312.841 42.938 355.780 100.00
-> hxdpi successful for ae503032010hxd_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,"ae503032010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 4721993
QUIT: 1 |
<--- [ 1] HXDeventFitsRead version 2.0.2
| OK: 4721992/4721993
[ 2] HXDleapsecInit version 2.0.1
| OK: 4721992/4721992
[ 3] HXDgradeFITS version 2.0.4
| OK: 4721992/4721992
[ 4] HXDgrade version 2.0.3
| OK: 4721992/4721992
[ 5] HXD2ndeventFitsWrite version 2.0.4
| OK: 4721992/4721992
GET: 4721992
*** 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 4721992 0 SINGLE
HXD:WEL:EV_TIME 8 8 4721992 4721992 SINGLE
HXD:WEL:MTI 4 4 4721992 4721992 SINGLE
HXD:WEL:GRADE_QUALTY 4 4 9443984 4721992 SINGLE
HXD:WEL:GRADE_PMTTRG 4 4 9443984 4721992 SINGLE
HXD:WEL:GRADE_PINTRG 4 4 9443984 4721992 SINGLE
HXD:WEL:GRADE_PSDSEL 8 8 9443984 4721992 SINGLE
HXD:WEL:GRADE_HITPAT 4 4 9443984 4721992 SINGLE
HXD:WEL:GRADE_RESERV 4 4 9443984 4721992 SINGLE
HXD:WEL:GRADE_PI_PIN 4 4 9443984 4721992 SINGLE
HXD:WEL:GRADE_UPI_PIN 8 8 9443984 4721992 SINGLE
HXD:WEL:DET_TYPE 4 4 9443984 4721992 SINGLE
HXD:WEL:PI_FAST 4 4 4721992 4721992 SINGLE
HXD:WEL:PI_SLOW 4 4 4721992 4721992 SINGLE
HXD:WEL:PI_PIN 16 16 4721992 4721992 SINGLE
HXD:WEL:UPI_FAST 8 8 4721992 4721992 SINGLE
HXD:WEL:UPI_SLOW 8 8 4721992 4721992 SINGLE
HXD:WEL:UPI_PIN 32 32 4721992 4721992 SINGLE
HXD:WEL:PIN_ID 4 4 9443984 4721992 SINGLE
HXD:WEL:UNITID 4 4 4721992 4721992 SINGLE
HXD:WEL:LENGTH_CHK 4 4 4721992 4721992 SINGLE
HXD:WEL:WELTIME 4 4 4721992 4721992 SINGLE
HXD:WEL:QUALITY_FLAGS 4 4 4721992 4721992 SINGLE
HXD:WEL:TRIG 4 4 4721992 4721992 SINGLE
HXD:WEL:HIT_PATTERN_WELL 4 4 4721992 4721992 SINGLE
HXD:WEL:HIT_PATTERN_ANTI 4 4 4721992 4721992 SINGLE
HXD:WEL:PHA_FAST 4 4 4721992 4721992 SINGLE
HXD:WEL:PHA_SLOW 4 4 4721992 4721992 SINGLE
HXD:WEL:PHA_PIN 16 16 4721992 4721992 SINGLE
HXD:WEL:PACKET_AETIME 8 8 4721992 0 SINGLE
HXD:WEL:PACKET_S_TIME 8 8 4721992 4721992 SINGLE
HXD:WEL:PACKET_SEC_HEADER 4 4 4721992 4721992 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 4721992 4721992 SINGLE
HXD:WEL:EVENT 204 204 4721992 4721992 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 118.831 5.190 124.021 43.58
[ 2] HXDleapsecInit 1.520 2.962 4.481 1.57
[ 3] HXDgradeFITS 1.152 2.756 3.907 1.37
[ 4] HXDgrade 11.600 2.866 14.466 5.08
[ 5] HXD2ndeventFitsWrite 119.656 18.046 137.702 48.38
(others) 0.017 0.013 0.030 0.01
--------------------------------------------------------------------------
TOTAL 252.776 31.832 284.608 100.00
-> hxdgrade successful for ae503032010hxd_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,"ae503032010hxd_0_proc.hk",,,"HXD scl fits file name ?" hklist_name,f,a,"ae503032010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae503032010.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 'ae503032010.tim[TIME_PACKETS_SEL]' ...
ntpk=23
aste_ti2time: reading 'ae503032010.tim[DP_TIMC]' ...
ndpk=77218, t=268261905.426 - 268796121.350
aste_ti2time: reading 'ae503032010.tim[DP_DHU_AVG]' ...
1: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=1,d=0
2: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
3: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
4: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
5: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
6: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
7: t0=268362517,N0=3170107392,Y=4502841/4304976,f=16777218.693,j=0,d=0
8: t0=268368597,N0=3195011072,Y=4304976/2614672,f=16777218.503,j=0,d=0
9: t0=268430517,N0=3448635392,Y=2614672/2276627,f=16777218.465,j=0,d=0
10: t0=268442741,N0=3498704896,Y=2276627/2104692,f=16777218.411,j=0,d=0
11: t0=268448821,N0=3523608576,Y=2104692/1931388,f=16777218.568,j=0,d=0
12: t0=268454869,N0=3548381184,Y=1931388/455270,f=16777218.475,j=0,d=0
13: t0=268516821,N0=3802136576,Y=455270/100558,f=16777218.485,j=0,d=0
14: t0=268529045,N0=3852206080,Y=100558/-70520,f=16777218.500,j=0,d=0
15: t0=268535125,N0=3877109760,Y=-70520/-247914,f=16777218.693,j=0,d=0
16: t0=268541173,N0=3901882368,Y=-247914/-1581585,f=16777218.474,j=0,d=0
17: t0=268597013,N0=4130603008,Y=-1581585/-1746124,f=16777218.363,j=0,d=0
18: t0=268603125,N0=4155637760,Y=-1746124/-2103382,f=16777218.594,j=0,d=0
19: t0=268615317,N0=4205576192,Y=-2103382/-2277974,f=16777218.404,j=0,d=0
20: t0=268621429,N0=4230610944,Y=-2277974/-5973081,f=16777218.489,j=0,d=0
21: t0=268769621,N0=542638080,Y=-5973081/-6140670,f=16777218.588,j=0,d=0
22: t0=268775765,N0=567803904,Y=-6140670/-6492479,f=16777218.546,j=0,d=0
23: t0=268787957,N0=617742336,Y=-6492479/-6663190,f=16777218.441,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_WPU_CLK_RATE' at hdu=2, col=160 in 'ae503032010hxd_0.hk'
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 29893
QUIT: 1 |
<--- [ 1] HXDsclFitsRead version 0.4.7
| OK: 29892/29893
[ 2] HXDgethkInit version 0.1.0
| OK: 29892/29892
[ 3] HXDleapsecInit version 2.0.1
| OK: 29892/29892
[ 4] HXDfsclTimeFITS version 0.3.6
| OK: 29892/29892
[ 5] HXDfsclTime version 0.3.8
| OK: 29892/29892
[ 6] HXD2ndsclFitsWrite version 0.2.1
| OK: 29892/29892
GET: 29892
*** 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 29892 0 SINGLE
HXD:SCL:PACKET_S_TIME 8 8 29892 59780 SINGLE
HXD:SCL:PACKET_SEC_HEADER 4 4 29892 29888 SINGLE
HXD:SCL:EV_TIME 8 8 29892 29892 SINGLE
HXD:SCL:TIME 4 4 29892 29888 SINGLE
HXD:SCL:BOARD 4 4 29892 29888 SINGLE
HXDsclFitsRead:IROW 4 4 29892 29892 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 37368 59784 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 3736 3736 SINGLE
HXDfsclTime:HXD_AE_TM_LATCH_TM 4 4 3736 3736 SINGLE
HXDfsclTime:HXD_SYS_TIME 8 8 3736 0 SINGLE
HXDfsclTime:HXD_HK_TIME 8 8 3736 0 SINGLE
HXDfsclTime:HXD_WPU_CLK_RATE 4 4 3736 3736 SINGLE
HXDfsclTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDfsclTime:TIME_INVALID 4 4 29892 0 SINGLE
HXDfsclTime:EV_TIME_TLM 8 8 29888 0 SINGLE
HXDfsclTime:TIME_RESOLUTION 8 8 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDsclFitsRead 0.242 0.043 0.285 30.65
[ 2] HXDgethkInit 0.013 0.022 0.035 3.76
[ 3] HXDleapsecInit 0.012 0.016 0.028 3.01
[ 4] HXDfsclTimeFITS 0.053 0.034 0.087 9.35
[ 5] HXDfsclTime 0.348 0.044 0.392 42.15
[ 6] HXD2ndsclFitsWrite 0.060 0.015 0.075 8.06
(others) 0.016 0.012 0.028 3.01
--------------------------------------------------------------------------
TOTAL 0.744 0.186 0.930 100.00
-> hxdscltime successful for ae503032010hxd_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,"ae503032010hxd_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,"ae503032010hxd_0.hk",,,"HXD HK fits file list name ?" leapfile,f,a,"CALDB",,,"leapsec file name" tim_filename,f,a,"ae503032010.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 'ae503032010.tim[TIME_PACKETS_SEL]' ...
ntpk=23
aste_ti2time: reading 'ae503032010.tim[DP_TIMC]' ...
ndpk=77218, t=268261905.426 - 268796121.350
aste_ti2time: reading 'ae503032010.tim[DP_DHU_AVG]' ...
1: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=1,d=0
2: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
3: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
4: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
5: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
6: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
7: t0=268362517,N0=3170107392,Y=4502841/4304976,f=16777218.693,j=0,d=0
8: t0=268368597,N0=3195011072,Y=4304976/2614672,f=16777218.503,j=0,d=0
9: t0=268430517,N0=3448635392,Y=2614672/2276627,f=16777218.465,j=0,d=0
10: t0=268442741,N0=3498704896,Y=2276627/2104692,f=16777218.411,j=0,d=0
11: t0=268448821,N0=3523608576,Y=2104692/1931388,f=16777218.568,j=0,d=0
12: t0=268454869,N0=3548381184,Y=1931388/455270,f=16777218.475,j=0,d=0
13: t0=268516821,N0=3802136576,Y=455270/100558,f=16777218.485,j=0,d=0
14: t0=268529045,N0=3852206080,Y=100558/-70520,f=16777218.500,j=0,d=0
15: t0=268535125,N0=3877109760,Y=-70520/-247914,f=16777218.693,j=0,d=0
16: t0=268541173,N0=3901882368,Y=-247914/-1581585,f=16777218.474,j=0,d=0
17: t0=268597013,N0=4130603008,Y=-1581585/-1746124,f=16777218.363,j=0,d=0
18: t0=268603125,N0=4155637760,Y=-1746124/-2103382,f=16777218.594,j=0,d=0
19: t0=268615317,N0=4205576192,Y=-2103382/-2277974,f=16777218.404,j=0,d=0
20: t0=268621429,N0=4230610944,Y=-2277974/-5973081,f=16777218.489,j=0,d=0
21: t0=268769621,N0=542638080,Y=-5973081/-6140670,f=16777218.588,j=0,d=0
22: t0=268775765,N0=567803904,Y=-6140670/-6492479,f=16777218.546,j=0,d=0
23: t0=268787957,N0=617742336,Y=-6492479/-6663190,f=16777218.441,j=0,d=0
Event... 1 (0)
aste_gethk-2.5: found 'HXD_TLATCH_TIME' at hdu=3, col=19 in 'ae503032010hxd_0.hk'
aste_gethk-2.5: found 'HXD_AE_TM_LATCH_TM' at hdu=2, col=94 in 'ae503032010hxd_0.hk'
Event... 100001 (100000)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 119569
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 119568/119569
[ 2] HXDgethkInit version 0.1.0
| OK: 119568/119568
[ 3] HXDleapsecInit version 2.0.1
| OK: 119568/119568
[ 4] HXDftrnTimeFITS version 0.3.3
| OK: 119568/119568
[ 5] HXDftrnTime version 0.3.3
| OK: 119568/119568
[ 6] HXD2ndtrnFitsWrite version 0.3.1
| OK: 119568/119568
GET: 119568
*** 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 239136 119568 SINGLE
HXD:TRN:PACKET_AETIME 8 8 119568 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 119568 358640 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 119568 239104 SINGLE
HXD:TRB:IBLOCK 4 4 119568 239104 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 119568 119568 SINGLE
HXD:TRN:BOARD 4 4 119568 239104 SINGLE
HXD:TRN:BLOCK 4 4 119568 239104 SINGLE
HXD:TRN:RDBIN 4 4 119568 119568 SINGLE
HXD:TRN:TBLID 4 4 119568 119568 SINGLE
HXD:TRN:DATA_SIZE 4 4 119568 119568 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 119568 119568 SINGLE
HXD:TRH:BLOCK 4 4 119568 119568 SINGLE
HXD:TRH:TIME 4 4 119568 239104 SINGLE
HXD:TRH:GB_TIME 4 4 119568 119568 SINGLE
HXD:TRH:GB_FLG 4 4 119568 119568 SINGLE
HXD:TRH:TIME_MODE 4 4 119568 239104 SINGLE
HXD:TRH:RBM 4 4 119568 119568 SINGLE
HXD:TRH:GB_FRZ 4 4 119568 119568 SINGLE
HXD:TRH:DT_MODE 4 4 119568 119568 SINGLE
HXD:TRH:SUMLD_MODE 4 4 119568 119568 SINGLE
HXD:TRH:BOARD 4 4 119568 119568 SINGLE
HXD:TRH:GB_TRG 4 4 119568 119568 SINGLE
HXD:TRB:PI 216 216 119568 119568 SINGLE
HXD:TRB:PH 216 216 119568 119568 SINGLE
HXD:TRB:OVER_FLOW 4 4 119568 119568 SINGLE
HXD:TRB:PSEUDO 4 4 119568 119568 SINGLE
HXD:TRB:TRN_ANT 20 20 119568 119568 SINGLE
HXD:TRB:UD 4 4 119568 119568 SINGLE
HXD:TRB:DEAD_TIME 4 4 119568 119568 SINGLE
HXD:TRB:SUM_LD 4 4 119568 119568 SINGLE
HXD:TRB:WELL_ANT 16 16 119568 119568 SINGLE
HXD:TRN:TRN_QUALITY 4 4 119568 119568 SINGLE
HXDtrnFitsRead:IROW 4 4 119568 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 127072 358704 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 3736 3736 SINGLE
HXDftrnTime:HXD_AE_TM_LATCH_TM 4 4 3736 3736 SINGLE
HXDftrnTime:HXD_SYS_TIME 8 8 3736 0 SINGLE
HXDftrnTime:HXD_HK_TIME 8 8 3736 0 SINGLE
HXDftrnTime:TIM_FILE_NAME 2000 2000 1 1 SINGLE
HXDftrnTime:TIME_INVALID 4 4 119568 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 3.700 0.283 3.983 41.10
[ 2] HXDgethkInit 0.041 0.083 0.124 1.28
[ 3] HXDleapsecInit 0.042 0.083 0.125 1.29
[ 4] HXDftrnTimeFITS 0.125 0.217 0.342 3.53
[ 5] HXDftrnTime 0.656 0.088 0.744 7.68
[ 6] HXD2ndtrnFitsWrite 3.639 0.702 4.341 44.79
(others) 0.022 0.010 0.032 0.33
--------------------------------------------------------------------------
TOTAL 8.226 1.466 9.692 100.00
-> hxdwamtime successful for ae503032010hxd_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,"ae503032010hxd_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,"ae503032010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 119569
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 119568/119569
[ 2] HXDleapsecInit version 2.0.1
| OK: 119568/119568
[ 3] HXDmktrngainhist version 0.1.2
| OK: 119568/119568
GET: 119568
*** 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 119568 119568 SINGLE
HXD:TRN:PACKET_AETIME 8 8 119568 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 119568 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 119568 0 SINGLE
HXD:TRB:IBLOCK 4 4 119568 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 119568 0 SINGLE
HXD:TRN:BOARD 4 4 119568 0 SINGLE
HXD:TRN:BLOCK 4 4 119568 0 SINGLE
HXD:TRN:RDBIN 4 4 119568 0 SINGLE
HXD:TRN:TBLID 4 4 119568 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 119568 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 119568 0 SINGLE
HXD:TRH:BLOCK 4 4 119568 0 SINGLE
HXD:TRH:TIME 4 4 119568 0 SINGLE
HXD:TRH:GB_TIME 4 4 119568 0 SINGLE
HXD:TRH:GB_FLG 4 4 119568 0 SINGLE
HXD:TRH:TIME_MODE 4 4 119568 0 SINGLE
HXD:TRH:RBM 4 4 119568 0 SINGLE
HXD:TRH:GB_FRZ 4 4 119568 0 SINGLE
HXD:TRH:DT_MODE 4 4 119568 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 119568 0 SINGLE
HXD:TRH:BOARD 4 4 119568 0 SINGLE
HXD:TRH:GB_TRG 4 4 119568 0 SINGLE
HXD:TRB:PI 216 216 119568 0 SINGLE
HXD:TRB:PH 216 216 119568 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 119568 0 SINGLE
HXD:TRB:PSEUDO 4 4 119568 0 SINGLE
HXD:TRB:TRN_ANT 20 20 119568 0 SINGLE
HXD:TRB:UD 4 4 119568 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 119568 0 SINGLE
HXD:TRB:SUM_LD 4 4 119568 0 SINGLE
HXD:TRB:WELL_ANT 16 16 119568 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 119568 0 SINGLE
HXDtrnFitsRead:IROW 4 4 119568 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 119568 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 3.765 0.098 3.863 92.62
[ 2] HXDleapsecInit 0.057 0.079 0.136 3.26
[ 3] HXDmktrngainhist 0.068 0.075 0.143 3.43
(others) 0.019 0.010 0.029 0.70
--------------------------------------------------------------------------
TOTAL 3.909 0.262 4.171 100.00
-> hxdmkwamgainhist successful for ae503032010hxd_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,"ae503032010hxd_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,"ae503032010hxd_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,"ae503032010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 119569
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 119568/119569
[ 2] HXDgethkInit version 0.1.0
| OK: 119568/119568
[ 3] HXDtrnpi version 2.0.0
| OK: 119568/119568
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 119568/119568
GET: 119568
*** 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 119568 239136 SINGLE
HXD:TRN:PACKET_AETIME 8 8 119568 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 119568 119568 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 119568 119568 SINGLE
HXD:TRB:IBLOCK 4 4 119568 119568 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 119568 119568 SINGLE
HXD:TRN:BOARD 4 4 119568 119568 SINGLE
HXD:TRN:BLOCK 4 4 119568 119568 SINGLE
HXD:TRN:RDBIN 4 4 119568 239136 SINGLE
HXD:TRN:TBLID 4 4 119568 119568 SINGLE
HXD:TRN:DATA_SIZE 4 4 119568 119568 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 119568 119568 SINGLE
HXD:TRH:BLOCK 4 4 119568 119568 SINGLE
HXD:TRH:TIME 4 4 119568 119568 SINGLE
HXD:TRH:GB_TIME 4 4 119568 119568 SINGLE
HXD:TRH:GB_FLG 4 4 119568 119568 SINGLE
HXD:TRH:TIME_MODE 4 4 119568 119568 SINGLE
HXD:TRH:RBM 4 4 119568 119568 SINGLE
HXD:TRH:GB_FRZ 4 4 119568 119568 SINGLE
HXD:TRH:DT_MODE 4 4 119568 119568 SINGLE
HXD:TRH:SUMLD_MODE 4 4 119568 119568 SINGLE
HXD:TRH:BOARD 4 4 119568 239136 SINGLE
HXD:TRH:GB_TRG 4 4 119568 119568 SINGLE
HXD:TRB:PI 216 216 239136 119568 SINGLE
HXD:TRB:PH 216 216 119568 239136 SINGLE
HXD:TRB:OVER_FLOW 4 4 119568 119568 SINGLE
HXD:TRB:PSEUDO 4 4 119568 119568 SINGLE
HXD:TRB:TRN_ANT 20 20 119568 119568 SINGLE
HXD:TRB:UD 4 4 119568 119568 SINGLE
HXD:TRB:DEAD_TIME 4 4 119568 119568 SINGLE
HXD:TRB:SUM_LD 4 4 119568 119568 SINGLE
HXD:TRB:WELL_ANT 16 16 119568 119568 SINGLE
HXD:TRN:TRN_QUALITY 4 4 119568 119568 SINGLE
HXDtrnFitsRead:IROW 4 4 119568 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 119568 119568 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 2.901 0.350 3.250 44.86
[ 2] HXDgethkInit 0.054 0.055 0.109 1.50
[ 3] HXDtrnpi 0.136 0.078 0.214 2.95
[ 4] HXD2ndtrnFitsWrite 3.028 0.613 3.640 50.24
(others) 0.022 0.010 0.032 0.44
--------------------------------------------------------------------------
TOTAL 6.140 1.106 7.246 100.00
-> hxdwampi successful for ae503032010hxd_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,"ae503032010hxd_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,"ae503032010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 119569
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 119568/119569
[ 2] HXDgethkInit version 0.1.0
| OK: 119568/119568
[ 3] HXDtrngrade version 0.1.0
| OK: 119568/119568
[ 4] HXD2ndtrnFitsWrite version 0.3.1
| OK: 119568/119568
GET: 119568
*** 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 119568 119568 SINGLE
HXD:TRN:PACKET_AETIME 8 8 119568 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 119568 119568 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 119568 119568 SINGLE
HXD:TRB:IBLOCK 4 4 119568 119568 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 119568 119568 SINGLE
HXD:TRN:BOARD 4 4 119568 119568 SINGLE
HXD:TRN:BLOCK 4 4 119568 119568 SINGLE
HXD:TRN:RDBIN 4 4 119568 119568 SINGLE
HXD:TRN:TBLID 4 4 119568 119568 SINGLE
HXD:TRN:DATA_SIZE 4 4 119568 119568 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 119568 119568 SINGLE
HXD:TRH:BLOCK 4 4 119568 119568 SINGLE
HXD:TRH:TIME 4 4 119568 119568 SINGLE
HXD:TRH:GB_TIME 4 4 119568 119568 SINGLE
HXD:TRH:GB_FLG 4 4 119568 119568 SINGLE
HXD:TRH:TIME_MODE 4 4 119568 119568 SINGLE
HXD:TRH:RBM 4 4 119568 119568 SINGLE
HXD:TRH:GB_FRZ 4 4 119568 119568 SINGLE
HXD:TRH:DT_MODE 4 4 119568 119568 SINGLE
HXD:TRH:SUMLD_MODE 4 4 119568 119568 SINGLE
HXD:TRH:BOARD 4 4 119568 119568 SINGLE
HXD:TRH:GB_TRG 4 4 119568 119568 SINGLE
HXD:TRB:PI 216 216 119568 119568 SINGLE
HXD:TRB:PH 216 216 119568 119568 SINGLE
HXD:TRB:OVER_FLOW 4 4 119568 119568 SINGLE
HXD:TRB:PSEUDO 4 4 119568 119568 SINGLE
HXD:TRB:TRN_ANT 20 20 119568 119568 SINGLE
HXD:TRB:UD 4 4 119568 119568 SINGLE
HXD:TRB:DEAD_TIME 4 4 119568 119568 SINGLE
HXD:TRB:SUM_LD 4 4 119568 119568 SINGLE
HXD:TRB:WELL_ANT 16 16 119568 119568 SINGLE
HXD:TRN:TRN_QUALITY 4 4 239136 119568 SINGLE
HXDtrnFitsRead:IROW 4 4 119568 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 119568 119568 SINGLE
HXDgethkInit:ASTE_HK 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] HXDtrnFitsRead 4.055 0.324 4.379 46.83
[ 2] HXDgethkInit 0.052 0.097 0.149 1.59
[ 3] HXDtrngrade 0.046 0.084 0.130 1.39
[ 4] HXD2ndtrnFitsWrite 3.963 0.707 4.670 49.94
(others) 0.016 0.007 0.023 0.25
--------------------------------------------------------------------------
TOTAL 8.133 1.219 9.352 100.00
-> hxdwamgrade successful for ae503032010hxd_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,"ae503032010hxd_0_wam.sff",,,"HXD wam fits file name ?" create_name,f,h,"none",,,"HXD wam fits created file name ?" hklist_name,f,a,"ae503032010hxd_0.hk",,,"HXD HK fits file list name ?" create_bstidt_name,f,a,"ae503032010hxd_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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 119569
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 119568/119569
[ 2] HXDleapsecInit version 2.0.1
| OK: 119568/119568
[ 3] HXDgethkInit version 0.1.0
| OK: 119568/119568
[ 4] HXDwambstid version 0.0.2
| OK: 119568/119568
GET: 119568
*** 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 119568 0 SINGLE
HXD:TRN:PACKET_AETIME 8 8 119568 119536 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 119568 0 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 119568 119536 SINGLE
HXD:TRB:IBLOCK 4 4 119568 0 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 119568 0 SINGLE
HXD:TRN:BOARD 4 4 119568 0 SINGLE
HXD:TRN:BLOCK 4 4 119568 0 SINGLE
HXD:TRN:RDBIN 4 4 119568 0 SINGLE
HXD:TRN:TBLID 4 4 119568 0 SINGLE
HXD:TRN:DATA_SIZE 4 4 119568 0 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 119568 0 SINGLE
HXD:TRH:BLOCK 4 4 119568 0 SINGLE
HXD:TRH:TIME 4 4 119568 0 SINGLE
HXD:TRH:GB_TIME 4 4 119568 0 SINGLE
HXD:TRH:GB_FLG 4 4 119568 0 SINGLE
HXD:TRH:TIME_MODE 4 4 119568 119536 SINGLE
HXD:TRH:RBM 4 4 119568 0 SINGLE
HXD:TRH:GB_FRZ 4 4 119568 119536 SINGLE
HXD:TRH:DT_MODE 4 4 119568 0 SINGLE
HXD:TRH:SUMLD_MODE 4 4 119568 0 SINGLE
HXD:TRH:BOARD 4 4 119568 119536 SINGLE
HXD:TRH:GB_TRG 4 4 119568 0 SINGLE
HXD:TRB:PI 216 216 119568 0 SINGLE
HXD:TRB:PH 216 216 119568 0 SINGLE
HXD:TRB:OVER_FLOW 4 4 119568 0 SINGLE
HXD:TRB:PSEUDO 4 4 119568 0 SINGLE
HXD:TRB:TRN_ANT 20 20 119568 0 SINGLE
HXD:TRB:UD 4 4 119568 0 SINGLE
HXD:TRB:DEAD_TIME 4 4 119568 0 SINGLE
HXD:TRB:SUM_LD 4 4 119568 0 SINGLE
HXD:TRB:WELL_ANT 16 16 119568 0 SINGLE
HXD:TRN:TRN_QUALITY 4 4 119568 0 SINGLE
HXDtrnFitsRead:IROW 4 4 119568 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 119568 119568 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 3.852 0.142 3.994 88.84
[ 2] HXDleapsecInit 0.058 0.092 0.150 3.34
[ 3] HXDgethkInit 0.034 0.068 0.102 2.27
[ 4] HXDwambstid 0.144 0.082 0.226 5.03
(others) 0.015 0.009 0.024 0.53
--------------------------------------------------------------------------
TOTAL 4.103 0.393 4.496 100.00
-> hxdwambstid successful for ae503032010hxd_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 ae503032010xi0_0_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae503032010xi0_0_3x3n066.fff.infile,f,a,"ae503032010xi0_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,"ae503032010.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 ae503032010xi0_0_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi0_0_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae503032010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae503032010.tim[TIME_PACKETS_SEL]' ...
ntpk=23
aste_ti2time: reading 'ae503032010.tim[DP_TIMC]' ...
ndpk=77218, t=268261905.426 - 268796121.350
aste_ti2time: reading 'ae503032010.tim[DP_DHU_AVG]' ...
1: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=1,d=0
2: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
3: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
4: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
5: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
6: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
7: t0=268362517,N0=3170107392,Y=4502841/4304976,f=16777218.693,j=0,d=0
8: t0=268368597,N0=3195011072,Y=4304976/2614672,f=16777218.503,j=0,d=0
9: t0=268430517,N0=3448635392,Y=2614672/2276627,f=16777218.465,j=0,d=0
10: t0=268442741,N0=3498704896,Y=2276627/2104692,f=16777218.411,j=0,d=0
11: t0=268448821,N0=3523608576,Y=2104692/1931388,f=16777218.568,j=0,d=0
12: t0=268454869,N0=3548381184,Y=1931388/455270,f=16777218.475,j=0,d=0
13: t0=268516821,N0=3802136576,Y=455270/100558,f=16777218.485,j=0,d=0
14: t0=268529045,N0=3852206080,Y=100558/-70520,f=16777218.500,j=0,d=0
15: t0=268535125,N0=3877109760,Y=-70520/-247914,f=16777218.693,j=0,d=0
16: t0=268541173,N0=3901882368,Y=-247914/-1581585,f=16777218.474,j=0,d=0
17: t0=268597013,N0=4130603008,Y=-1581585/-1746124,f=16777218.363,j=0,d=0
18: t0=268603125,N0=4155637760,Y=-1746124/-2103382,f=16777218.594,j=0,d=0
19: t0=268615317,N0=4205576192,Y=-2103382/-2277974,f=16777218.404,j=0,d=0
20: t0=268621429,N0=4230610944,Y=-2277974/-5973081,f=16777218.489,j=0,d=0
21: t0=268769621,N0=542638080,Y=-5973081/-6140670,f=16777218.588,j=0,d=0
22: t0=268775765,N0=567803904,Y=-6140670/-6492479,f=16777218.546,j=0,d=0
23: t0=268787957,N0=617742336,Y=-6492479/-6663190,f=16777218.441,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 211025 events )
... 10% ( 21102 / 211025 events )
... 20% ( 42204 / 211025 events )
... 30% ( 63306 / 211025 events )
... 40% ( 84408 / 211025 events )
Event... 100001 (100000)
... 50% ( 105510 / 211025 events )
... 60% ( 126612 / 211025 events )
... 70% ( 147714 / 211025 events )
... 80% ( 168816 / 211025 events )
... 90% ( 189918 / 211025 events )
Event... 200001 (200000)
... 100% ( 211025 / 211025 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268465268.781243 / time start
TSTOP = 268495124.777302 / time stop
TELAPASE = 29855.996059 / elapsed time = TSTOP - TSTART
ONTIME = 29855.996059 / on time = sum of all GTIs
LIVETIME = 29855.996059 / on-source time corrected for CCD exposure
EXPOSURE = 29855.996059 / exposure time
xisEventFitsUtil: rename ./fileYTfQJ0-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 211027
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 211026/211027
[ 2] XISreadExp version 1.6
| OK: 211026/211026
[ 3] XISreadEvent version 2.7
| OK: 211025/211026 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 211025/211025
[ 5] XISeditEventFits version 2.1
| OK: 211025/211025
GET: 211025
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
211026 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
211026 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
211026 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
211025 : XIStime:ENTRY
211025 : XIStime:OK
1 : XISeditEventFits:BEGIN
211025 : XISeditEventFits:ENTRY
211025 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 211025 211025 SINGLE
XIS:RAWX 4 4 211025 211025 SINGLE
XIS:RAWY 4 4 211025 211025 SINGLE
XIS:ACTX 4 4 211025 211025 SINGLE
XIS:ACTY 4 4 211025 211025 SINGLE
XIS:DETX 4 4 211025 211025 SINGLE
XIS:DETY 4 4 211025 211025 SINGLE
XIS:FOCX 4 4 211025 211025 SINGLE
XIS:FOCY 4 4 211025 211025 SINGLE
XIS:X 4 4 211025 211025 SINGLE
XIS:Y 4 4 211025 211025 SINGLE
XIS:STATUS 4 4 211025 211025 SINGLE
XIS:PHAS 36 36 211025 211025 SINGLE
XIS:PHANOCTI 4 4 211025 211025 SINGLE
XIS:PHA 4 4 211025 211025 SINGLE
XIS:PI 4 4 211025 211025 SINGLE
XIS:GRADE 4 4 211025 211025 SINGLE
XIS:P_OUTER_MOST 4 4 211025 211025 SINGLE
XIS:SUM_OUTER_MOST 4 4 211025 211025 SINGLE
XIS:AEDATE 4 4 422050 211025 FAMILY
XIS:EXPTIME 4 4 211025 422050 FAMILY
XIS:EXPTIME_AETIME 8 8 422050 211025 SINGLE
XIS:S_TIME 8 8 211025 422050 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 211025 422050 FAMILY
XIS:EVENT_SEQ_NO 4 4 211025 211025 SINGLE
XIS:TIME 8 8 422050 211025 SINGLE
XIS:EXP_CENT_AETIME 8 8 422050 211025 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 211027 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 0.147 0.111 0.258 3.08
[ 2] XISreadExp 0.050 0.098 0.148 1.77
[ 3] XISreadEvent 3.522 0.273 3.795 45.29
[ 4] XIStime 0.519 0.148 0.667 7.96
[ 5] XISeditEventFits 3.167 0.324 3.490 41.65
(others) 0.010 0.011 0.021 0.25
--------------------------------------------------------------------------
TOTAL 7.415 0.965 8.380 100.00
-> xistime successful on ae503032010xi0_0_3x3n066.sff.infile,f,a,"ae503032010xi0_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,"ae503032010.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 ae503032010xi0_0_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi0_0_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae503032010.att'
SKYREF (133.6175, -46.3272, 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 = 133.61750 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 841.47 / X of the optical axis (pixel)
TLMIN11 = 1 / minimum legal value for Y
TLMAX11 = 1536 / maximum legal value for Y
TCRPX11 = 768.5 / Y reference pixel
TCRVL11 = -46.32720 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 748.20 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 211025 events )
... 10% ( 21102 / 211025 events )
... 20% ( 42204 / 211025 events )
... 30% ( 63306 / 211025 events )
... 40% ( 84408 / 211025 events )
Event... 100001 (100000)
... 50% ( 105510 / 211025 events )
... 60% ( 126612 / 211025 events )
... 70% ( 147714 / 211025 events )
... 80% ( 168816 / 211025 events )
... 90% ( 189918 / 211025 events )
Event... 200001 (200000)
... 100% ( 211025 / 211025 events )
xisEventFitsUtil: rename ./file37sa6H-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 211027
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 211026/211027
[ 2] XISreadExp version 1.6
| OK: 211026/211026
[ 3] XISreadEvent version 2.7
| OK: 211025/211026 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 211025/211025
[ 5] XISeditEventFits version 2.1
| OK: 211025/211025
GET: 211025
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
211026 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
211026 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
211026 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
211025 : XIScoord:ENTRY
211025 : XIScoord:OK
1 : XISeditEventFits:BEGIN
211025 : XISeditEventFits:ENTRY
211025 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 211025 422050 SINGLE
XIS:RAWX 4 4 211025 422050 SINGLE
XIS:RAWY 4 4 211025 422050 SINGLE
XIS:ACTX 4 4 422050 211025 SINGLE
XIS:ACTY 4 4 422050 211025 SINGLE
XIS:DETX 4 4 422050 211025 SINGLE
XIS:DETY 4 4 422050 211025 SINGLE
XIS:FOCX 4 4 422050 211025 SINGLE
XIS:FOCY 4 4 422050 211025 SINGLE
XIS:X 4 4 422050 211025 SINGLE
XIS:Y 4 4 422050 211025 SINGLE
XIS:STATUS 4 4 211025 211025 SINGLE
XIS:PHAS 36 36 211025 211025 SINGLE
XIS:PHANOCTI 4 4 211025 211025 SINGLE
XIS:PHA 4 4 211025 211025 SINGLE
XIS:PI 4 4 211025 211025 SINGLE
XIS:GRADE 4 4 211025 211025 SINGLE
XIS:P_OUTER_MOST 4 4 211025 211025 SINGLE
XIS:SUM_OUTER_MOST 4 4 211025 211025 SINGLE
XIS:AEDATE 4 4 211025 211025 FAMILY
XIS:EXPTIME 4 4 211025 211025 FAMILY
XIS:EXPTIME_AETIME 8 8 211025 211025 SINGLE
XIS:S_TIME 8 8 211025 211025 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 211025 211025 FAMILY
XIS:EVENT_SEQ_NO 4 4 211025 211025 SINGLE
XIS:TIME 8 8 211025 422050 SINGLE
XIS:EXP_CENT_AETIME 8 8 211025 211025 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 211027 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 0.205 0.139 0.344 2.97
[ 2] XISreadExp 0.067 0.114 0.181 1.56
[ 3] XISreadEvent 4.483 0.228 4.711 40.65
[ 4] XIScoord 1.685 0.180 1.865 16.09
[ 5] XISeditEventFits 4.082 0.375 4.457 38.46
(others) 0.018 0.013 0.031 0.27
--------------------------------------------------------------------------
TOTAL 10.540 1.049 11.589 100.00
-> xiscoord successful on ae503032010xi0_0_3x3n066.sff.infile,f,a,"ae503032010xi0_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 ae503032010xi0_0_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi0_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 / 211025 events )
... 10% ( 21102 / 211025 events )
... 20% ( 42204 / 211025 events )
... 30% ( 63306 / 211025 events )
... 40% ( 84408 / 211025 events )
Event... 100001 (100000)
... 50% ( 105510 / 211025 events )
... 60% ( 126612 / 211025 events )
... 70% ( 147714 / 211025 events )
... 80% ( 168816 / 211025 events )
... 90% ( 189918 / 211025 events )
Event... 200001 (200000)
... 100% ( 211025 / 211025 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 3674 1.74
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 4606 2.18
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 2630 1.25
B8 256 1PIX_FROM_SEGBOUNDARY 1061 0.50
B9 512 SCI_3rd_TRAILING_ROW 2460 1.17
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 4821 2.28
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 2759 1.31
B16 65536 CALMASK 23627 11.20
B17 131072 SEGBOUNDARY 4130 1.96
B18 262144 SCI_2nd_TRAILING_ROW 2548 1.21
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 14573 6.91
B21 2097152 HOT 0 0.00
B22 4194304 FLICKERING 0 0.00
B23 8388608 WINBOUNDARY 0 0.00
B24 16777216 OUTSIDE_AREADISCRI 0 0.00
B25 33554432 OTHER_BAD 0 0.00
B26 67108864 ***RESERVED*** 0 0.00
B27 134217728 ***RESERVED*** 0 0.00
B28 268435456 SCI_PRECEDING_ROW 31333 14.85
B29 536870912 SCI_TRAILING_ROW 25315 12.00
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 93 0.04
### 0 CLEAN_ZERO 110212 52.23
--------------------------------------------------------------
+++ 4294967295 SUM 233842 110.81
::: 524287 SAFE(B0-18) 144907 68.67
>>> 4294967295 TOTAL 211025 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./filebeQFX9-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 211027
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 211026/211027
[ 2] XISreadExp version 1.6
| OK: 211026/211026
[ 3] XISreadEvent version 2.7
| OK: 211025/211026 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 211025/211025
[ 5] XISeditEventFits version 2.1
| OK: 211025/211025
GET: 211025
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
211026 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
211026 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
211026 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
211025 : XISputPixelQuality:ENTRY
211025 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
211025 : XISeditEventFits:ENTRY
211025 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 211025 211025 SINGLE
XIS:RAWX 4 4 211025 211025 SINGLE
XIS:RAWY 4 4 211025 422050 SINGLE
XIS:ACTX 4 4 211025 422050 SINGLE
XIS:ACTY 4 4 211025 422050 SINGLE
XIS:DETX 4 4 211025 211025 SINGLE
XIS:DETY 4 4 211025 211025 SINGLE
XIS:FOCX 4 4 211025 211025 SINGLE
XIS:FOCY 4 4 211025 211025 SINGLE
XIS:X 4 4 211025 211025 SINGLE
XIS:Y 4 4 211025 211025 SINGLE
XIS:STATUS 4 4 422050 211025 SINGLE
XIS:PHAS 36 36 211025 211025 SINGLE
XIS:PHANOCTI 4 4 211025 211025 SINGLE
XIS:PHA 4 4 211025 211025 SINGLE
XIS:PI 4 4 211025 211025 SINGLE
XIS:GRADE 4 4 211025 211025 SINGLE
XIS:P_OUTER_MOST 4 4 211025 211025 SINGLE
XIS:SUM_OUTER_MOST 4 4 211025 211025 SINGLE
XIS:AEDATE 4 4 211025 211025 FAMILY
XIS:EXPTIME 4 4 211025 211025 FAMILY
XIS:EXPTIME_AETIME 8 8 211025 211025 SINGLE
XIS:S_TIME 8 8 211025 211025 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 211025 211025 FAMILY
XIS:EVENT_SEQ_NO 4 4 211025 211025 SINGLE
XIS:TIME 8 8 211025 422050 SINGLE
XIS:EXP_CENT_AETIME 8 8 211025 211025 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 211027 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 0.231 0.141 0.372 2.99
[ 2] XISreadExp 0.066 0.135 0.201 1.62
[ 3] XISreadEvent 5.497 0.193 5.690 45.81
[ 4] XISputPixelQuality 0.500 0.188 0.688 5.54
[ 5] XISeditEventFits 4.975 0.470 5.445 43.84
(others) 0.015 0.009 0.024 0.19
--------------------------------------------------------------------------
TOTAL 11.284 1.136 12.420 100.00
-> xisputpixelquality successful on ae503032010xi0_0_3x3n066.sff.infile,f,a,"ae503032010xi0_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,"ae503032010xi0_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 ae503032010xi0_0_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi0_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 98-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi0_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae503032010xi0_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 ae503032010xi0_0.hk, S0_VDCHK18_CAL, nrows=934
nvalid=934 nrej=0 time=268465275.3 - 268495131.3 [s]
AE-temp: average=20.569 sigma=1.454 min=17.789 max=22.722 [degC]
Event... 1 (0)
... 0% ( 0 / 211025 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 21102 / 211025 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 42204 / 211025 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 63306 / 211025 events )
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 84408 / 211025 events )
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 105510 / 211025 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 126612 / 211025 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 147714 / 211025 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 168816 / 211025 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 189918 / 211025 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 211025 / 211025 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filemSA7Zg-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 211027
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 211026/211027
[ 2] XISreadExp version 1.6
| OK: 211026/211026
[ 3] XISreadEvent version 2.7
| OK: 211025/211026 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 211025/211025
[ 5] XIStrailCorrection version 3.1
| OK: 211025/211025
[ 6] XISctiCorrection version 3.4
| OK: 211025/211025
[ 7] XISgrade version 3.3
| OK: 211025/211025
[ 8] XISpha2pi version 3.2
| OK: 211025/211025
[ 9] XISeditEventFits version 2.1
| OK: 211025/211025
GET: 211025
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
211026 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
211026 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
211026 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
211025 : XISpreparePHASCORR:ENTRY
211025 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
211025 : XIStrailCorrection:ENTRY
211025 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
211025 : XISctiCorrection:ENTRY
211025 : XISctiCorrection:OK
1 : XISgrade:BEGIN
211025 : XISgrade:ENTRY
211025 : XISgrade:OK
1 : XISpha2pi:BEGIN
211025 : XISpha2pi:ENTRY
211025 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
211025 : XISeditEventFits:ENTRY
211025 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 844106 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 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 211025 1055125 SINGLE
XIS:RAWX 4 4 211025 633075 SINGLE
XIS:RAWY 4 4 211025 422050 SINGLE
XIS:ACTX 4 4 211025 211025 SINGLE
XIS:ACTY 4 4 211025 633075 SINGLE
XIS:DETX 4 4 211025 211025 SINGLE
XIS:DETY 4 4 211025 211025 SINGLE
XIS:FOCX 4 4 211025 211025 SINGLE
XIS:FOCY 4 4 211025 211025 SINGLE
XIS:X 4 4 211025 211025 SINGLE
XIS:Y 4 4 211025 211025 SINGLE
XIS:STATUS 4 4 211025 211025 SINGLE
XIS:PHAS 36 36 211025 422050 SINGLE
XIS:PHANOCTI 4 4 422050 211025 SINGLE
XIS:PHA 4 4 422050 211025 SINGLE
XIS:PI 4 4 422050 211025 SINGLE
XIS:GRADE 4 4 422050 211025 SINGLE
XIS:P_OUTER_MOST 4 4 211025 422050 SINGLE
XIS:SUM_OUTER_MOST 4 4 211025 422050 SINGLE
XIS:AEDATE 4 4 211025 211025 FAMILY
XIS:EXPTIME 4 4 211025 211025 FAMILY
XIS:EXPTIME_AETIME 8 8 211025 211025 SINGLE
XIS:S_TIME 8 8 211025 211025 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 211025 211025 FAMILY
XIS:EVENT_SEQ_NO 4 4 211025 211025 SINGLE
XIS:TIME 8 8 211025 1055125 SINGLE
XIS:EXP_CENT_AETIME 8 8 211025 211025 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 211027 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 422050 211025 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 211025 211025 SINGLE
XIS:PHASCORR 72 72 633075 633075 SINGLE
XIS:PHA:DOUBLE 8 8 211025 211025 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 5 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.199 0.125 0.324 1.39
[ 2] XISreadExp 0.072 0.121 0.193 0.83
[ 3] XISreadEvent 3.907 0.194 4.101 17.55
[ 4] XISpreparePHASCORR 0.202 0.124 0.326 1.39
[ 5] XIStrailCorrection 0.522 0.126 0.648 2.77
[ 6] XISctiCorrection 8.523 3.647 12.170 52.08
[ 7] XISgrade 0.770 0.110 0.880 3.77
[ 8] XISpha2pi 0.517 0.110 0.627 2.68
[ 9] XISeditEventFits 3.710 0.354 4.064 17.39
(others) 0.024 0.012 0.036 0.15
--------------------------------------------------------------------------
TOTAL 18.446 4.923 23.369 100.00
-> xispi successful on ae503032010xi0_0_3x3n066.sff.infile,f,a,"ae503032010xi0_0_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae503032010xi0_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 ae503032010xi0_0_3x3n066.sff
OUTFILE ae503032010xi0_0_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae503032010xi0_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 / 211025 events )
... 10% ( 21102 / 211025 events )
... 20% ( 42204 / 211025 events )
... 30% ( 63306 / 211025 events )
... 40% ( 84408 / 211025 events )
... 50% ( 105510 / 211025 events )
... 60% ( 126612 / 211025 events )
... 70% ( 147714 / 211025 events )
... 80% ( 168816 / 211025 events )
... 90% ( 189918 / 211025 events )
... 100% ( 211025 / 211025 events )
XIScheckEventNo: GTI file 'ae503032010xi0_0_3x3n066.gti' created
N_FRAMES = 3732 / number of frames in the input event file
N_TESTED = 3732 / number of non-zero frames tested
N_PASSED = 3732 / number of frames passed the test
N_T_JUMP = 0 / number of frames detected time jump
N_SATURA = 0 / number of frames telemetry saturated
T_TESTED = 29856.000000 / exposure of non-zero frames tested
T_PASSED = 29856.000000 / exposure of frames passed the test
T_T_JUMP = 0.000000 / 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: 3733
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 3732/3733
[ 2] XISreadExp version 1.6
| OK: 3732/3732
[ 3] XISreadEvent version 2.7 <------- LOOP: 211025
| OK: 211025/214757 -------> SKIP: 3732
[ 4] XIScheckEventNo version 1.2
| OK: 211025/211025
GET: 211025
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
3732 : XISreadFrame:ENTRY
3732 : XISreadFrame:OK
1 : XISreadExp:BEGIN
3732 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
214757 : XISreadEvent:ENTRY
214756 : XISreadEvent:OK
3732 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
211025 : XIScheckEventNo:ENTRY
211025 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 3732 214757 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 3732 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 3732 214757 SINGLE
XIS:FRAMES:S_TIME 8 8 3732 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 3732 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 3732 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 3732 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 3732 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 3732 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 3732 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 3732 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 3732 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 3732 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 3732 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 3732 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 3732 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 3732 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 3732 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 3732 3732 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 3732 0 SINGLE
XIS:FRAMES:BIAS 16 16 3732 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 3732 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 3732 0 SINGLE
XIS:FRAMES:AEDATE 4 4 3732 214757 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 3732 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 3732 211025 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 3732 3732 SINGLE
XIS:FRAMES:TIME 8 8 3732 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 211025 211025 SINGLE
XIS:RAWX 4 4 211025 0 SINGLE
XIS:RAWY 4 4 211025 0 SINGLE
XIS:ACTX 4 4 211025 0 SINGLE
XIS:ACTY 4 4 211025 0 SINGLE
XIS:DETX 4 4 211025 0 SINGLE
XIS:DETY 4 4 211025 0 SINGLE
XIS:FOCX 4 4 211025 0 SINGLE
XIS:FOCY 4 4 211025 0 SINGLE
XIS:X 4 4 211025 0 SINGLE
XIS:Y 4 4 211025 0 SINGLE
XIS:STATUS 4 4 211025 0 SINGLE
XIS:PHAS 36 36 211025 0 SINGLE
XIS:PHANOCTI 4 4 211025 0 SINGLE
XIS:PHA 4 4 211025 0 SINGLE
XIS:PI 4 4 211025 0 SINGLE
XIS:GRADE 4 4 211025 0 SINGLE
XIS:P_OUTER_MOST 4 4 211025 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 211025 0 SINGLE
XIS:AEDATE 4 4 211025 214756 FAMILY
XIS:EXPTIME 4 4 211025 214756 FAMILY
XIS:EXPTIME_AETIME 8 8 211025 0 SINGLE
XIS:S_TIME 8 8 211025 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 211025 214756 FAMILY
XIS:EVENT_SEQ_NO 4 4 211025 214756 SINGLE
XIS:TIME 8 8 211025 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 211025 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 1.210 0.013 1.223 13.97
[ 2] XISreadExp 0.004 0.003 0.007 0.08
[ 3] XISreadEvent 6.996 0.170 7.166 81.84
[ 4] XIScheckEventNo 0.181 0.159 0.340 3.88
(others) 0.012 0.008 0.020 0.23
--------------------------------------------------------------------------
TOTAL 8.403 0.353 8.756 100.00
-> xisgtigen successful on ae503032010xi0_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 ae503032010xi1_0_3x3n069.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae503032010xi1_0_3x3n069.fff.infile,f,a,"ae503032010xi1_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,"ae503032010.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 ae503032010xi1_0_3x3n069.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi1_0_3x3n069.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae503032010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae503032010.tim[TIME_PACKETS_SEL]' ...
ntpk=23
aste_ti2time: reading 'ae503032010.tim[DP_TIMC]' ...
ndpk=77218, t=268261905.426 - 268796121.350
aste_ti2time: reading 'ae503032010.tim[DP_DHU_AVG]' ...
1: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=1,d=0
2: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
3: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
4: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
5: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
6: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
7: t0=268362517,N0=3170107392,Y=4502841/4304976,f=16777218.693,j=0,d=0
8: t0=268368597,N0=3195011072,Y=4304976/2614672,f=16777218.503,j=0,d=0
9: t0=268430517,N0=3448635392,Y=2614672/2276627,f=16777218.465,j=0,d=0
10: t0=268442741,N0=3498704896,Y=2276627/2104692,f=16777218.411,j=0,d=0
11: t0=268448821,N0=3523608576,Y=2104692/1931388,f=16777218.568,j=0,d=0
12: t0=268454869,N0=3548381184,Y=1931388/455270,f=16777218.475,j=0,d=0
13: t0=268516821,N0=3802136576,Y=455270/100558,f=16777218.485,j=0,d=0
14: t0=268529045,N0=3852206080,Y=100558/-70520,f=16777218.500,j=0,d=0
15: t0=268535125,N0=3877109760,Y=-70520/-247914,f=16777218.693,j=0,d=0
16: t0=268541173,N0=3901882368,Y=-247914/-1581585,f=16777218.474,j=0,d=0
17: t0=268597013,N0=4130603008,Y=-1581585/-1746124,f=16777218.363,j=0,d=0
18: t0=268603125,N0=4155637760,Y=-1746124/-2103382,f=16777218.594,j=0,d=0
19: t0=268615317,N0=4205576192,Y=-2103382/-2277974,f=16777218.404,j=0,d=0
20: t0=268621429,N0=4230610944,Y=-2277974/-5973081,f=16777218.489,j=0,d=0
21: t0=268769621,N0=542638080,Y=-5973081/-6140670,f=16777218.588,j=0,d=0
22: t0=268775765,N0=567803904,Y=-6140670/-6492479,f=16777218.546,j=0,d=0
23: t0=268787957,N0=617742336,Y=-6492479/-6663190,f=16777218.441,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 436935 events )
... 10% ( 43693 / 436935 events )
... 20% ( 87386 / 436935 events )
Event... 100001 (100000)
... 30% ( 131079 / 436935 events )
... 40% ( 174772 / 436935 events )
Event... 200001 (200000)
... 50% ( 218465 / 436935 events )
... 60% ( 262158 / 436935 events )
Event... 300001 (300000)
... 70% ( 305851 / 436935 events )
... 80% ( 349544 / 436935 events )
... 90% ( 393237 / 436935 events )
Event... 400001 (400000)
... 100% ( 436935 / 436935 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268465276.781242 / time start
TSTOP = 268495132.777301 / time stop
TELAPASE = 29855.996059 / elapsed time = TSTOP - TSTART
ONTIME = 29855.996059 / on time = sum of all GTIs
LIVETIME = 29855.996059 / on-source time corrected for CCD exposure
EXPOSURE = 29855.996059 / exposure time
xisEventFitsUtil: rename ./fileGSlS8V-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 436937
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 436936/436937
[ 2] XISreadExp version 1.6
| OK: 436936/436936
[ 3] XISreadEvent version 2.7
| OK: 436935/436936 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 436935/436935
[ 5] XISeditEventFits version 2.1
| OK: 436935/436935
GET: 436935
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
436936 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
436936 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
436936 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
436935 : XIStime:ENTRY
436935 : XIStime:OK
1 : XISeditEventFits:BEGIN
436935 : XISeditEventFits:ENTRY
436935 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 436935 436935 SINGLE
XIS:RAWX 4 4 436935 436935 SINGLE
XIS:RAWY 4 4 436935 436935 SINGLE
XIS:ACTX 4 4 436935 436935 SINGLE
XIS:ACTY 4 4 436935 436935 SINGLE
XIS:DETX 4 4 436935 436935 SINGLE
XIS:DETY 4 4 436935 436935 SINGLE
XIS:FOCX 4 4 436935 436935 SINGLE
XIS:FOCY 4 4 436935 436935 SINGLE
XIS:X 4 4 436935 436935 SINGLE
XIS:Y 4 4 436935 436935 SINGLE
XIS:STATUS 4 4 436935 436935 SINGLE
XIS:PHAS 36 36 436935 436935 SINGLE
XIS:PHANOCTI 4 4 436935 436935 SINGLE
XIS:PHA 4 4 436935 436935 SINGLE
XIS:PI 4 4 436935 436935 SINGLE
XIS:GRADE 4 4 436935 436935 SINGLE
XIS:P_OUTER_MOST 4 4 436935 436935 SINGLE
XIS:SUM_OUTER_MOST 4 4 436935 436935 SINGLE
XIS:AEDATE 4 4 873870 436935 FAMILY
XIS:EXPTIME 4 4 436935 873870 FAMILY
XIS:EXPTIME_AETIME 8 8 873870 436935 SINGLE
XIS:S_TIME 8 8 436935 873870 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 436935 873870 FAMILY
XIS:EVENT_SEQ_NO 4 4 436935 436935 SINGLE
XIS:TIME 8 8 873870 436935 SINGLE
XIS:EXP_CENT_AETIME 8 8 873870 436935 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 436937 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 0.289 0.254 0.543 2.96
[ 2] XISreadExp 0.100 0.246 0.346 1.88
[ 3] XISreadEvent 7.976 0.503 8.479 46.19
[ 4] XIStime 1.066 0.270 1.336 7.28
[ 5] XISeditEventFits 7.043 0.586 7.629 41.56
(others) 0.015 0.009 0.024 0.13
--------------------------------------------------------------------------
TOTAL 16.488 1.868 18.356 100.00
-> xistime successful on ae503032010xi1_0_3x3n069.sff.infile,f,a,"ae503032010xi1_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,"ae503032010.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 ae503032010xi1_0_3x3n069.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi1_0_3x3n069.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae503032010.att'
SKYREF (133.6175, -46.3272, 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 = 133.61750 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 798.69 / 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 = -46.32720 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 727.39 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 436935 events )
... 10% ( 43693 / 436935 events )
... 20% ( 87386 / 436935 events )
Event... 100001 (100000)
... 30% ( 131079 / 436935 events )
... 40% ( 174772 / 436935 events )
Event... 200001 (200000)
... 50% ( 218465 / 436935 events )
... 60% ( 262158 / 436935 events )
Event... 300001 (300000)
... 70% ( 305851 / 436935 events )
... 80% ( 349544 / 436935 events )
... 90% ( 393237 / 436935 events )
Event... 400001 (400000)
... 100% ( 436935 / 436935 events )
xisEventFitsUtil: rename ./file4qndqx-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 436937
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 436936/436937
[ 2] XISreadExp version 1.6
| OK: 436936/436936
[ 3] XISreadEvent version 2.7
| OK: 436935/436936 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 436935/436935
[ 5] XISeditEventFits version 2.1
| OK: 436935/436935
GET: 436935
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
436936 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
436936 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
436936 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
436935 : XIScoord:ENTRY
436935 : XIScoord:OK
1 : XISeditEventFits:BEGIN
436935 : XISeditEventFits:ENTRY
436935 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 436935 873870 SINGLE
XIS:RAWX 4 4 436935 873870 SINGLE
XIS:RAWY 4 4 436935 873870 SINGLE
XIS:ACTX 4 4 873870 436935 SINGLE
XIS:ACTY 4 4 873870 436935 SINGLE
XIS:DETX 4 4 873870 436935 SINGLE
XIS:DETY 4 4 873870 436935 SINGLE
XIS:FOCX 4 4 873870 436935 SINGLE
XIS:FOCY 4 4 873870 436935 SINGLE
XIS:X 4 4 873870 436935 SINGLE
XIS:Y 4 4 873870 436935 SINGLE
XIS:STATUS 4 4 436935 436935 SINGLE
XIS:PHAS 36 36 436935 436935 SINGLE
XIS:PHANOCTI 4 4 436935 436935 SINGLE
XIS:PHA 4 4 436935 436935 SINGLE
XIS:PI 4 4 436935 436935 SINGLE
XIS:GRADE 4 4 436935 436935 SINGLE
XIS:P_OUTER_MOST 4 4 436935 436935 SINGLE
XIS:SUM_OUTER_MOST 4 4 436935 436935 SINGLE
XIS:AEDATE 4 4 436935 436935 FAMILY
XIS:EXPTIME 4 4 436935 436935 FAMILY
XIS:EXPTIME_AETIME 8 8 436935 436935 SINGLE
XIS:S_TIME 8 8 436935 436935 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 436935 436935 FAMILY
XIS:EVENT_SEQ_NO 4 4 436935 436935 SINGLE
XIS:TIME 8 8 436935 873870 SINGLE
XIS:EXP_CENT_AETIME 8 8 436935 436935 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 436937 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.416 0.280 0.696 3.27
[ 2] XISreadExp 0.158 0.249 0.407 1.91
[ 3] XISreadEvent 8.184 0.443 8.627 40.55
[ 4] XIScoord 3.206 0.304 3.509 16.49
[ 5] XISeditEventFits 7.376 0.637 8.013 37.66
(others) 0.015 0.010 0.025 0.12
--------------------------------------------------------------------------
TOTAL 19.354 1.923 21.277 100.00
-> xiscoord successful on ae503032010xi1_0_3x3n069.sff.infile,f,a,"ae503032010xi1_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 ae503032010xi1_0_3x3n069.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi1_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 / 436935 events )
... 10% ( 43693 / 436935 events )
... 20% ( 87386 / 436935 events )
Event... 100001 (100000)
... 30% ( 131079 / 436935 events )
... 40% ( 174772 / 436935 events )
Event... 200001 (200000)
... 50% ( 218465 / 436935 events )
... 60% ( 262158 / 436935 events )
Event... 300001 (300000)
... 70% ( 305851 / 436935 events )
... 80% ( 349544 / 436935 events )
... 90% ( 393237 / 436935 events )
Event... 400001 (400000)
... 100% ( 436935 / 436935 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 3564 0.82
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 11147 2.55
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 1467 0.34
B8 256 1PIX_FROM_SEGBOUNDARY 1599 0.37
B9 512 SCI_3rd_TRAILING_ROW 11882 2.72
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 19349 4.43
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 5374 1.23
B16 65536 CALMASK 48025 10.99
B17 131072 SEGBOUNDARY 3311 0.76
B18 262144 SCI_2nd_TRAILING_ROW 10313 2.36
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 47467 10.86
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 8888 2.03
B29 536870912 SCI_TRAILING_ROW 36097 8.26
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 28 0.01
### 0 CLEAN_ZERO 277860 63.59
--------------------------------------------------------------
+++ 4294967295 SUM 486371 111.31
::: 524287 SAFE(B0-18) 360145 82.43
>>> 4294967295 TOTAL 436935 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileCnrLMr-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 436937
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 436936/436937
[ 2] XISreadExp version 1.6
| OK: 436936/436936
[ 3] XISreadEvent version 2.7
| OK: 436935/436936 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 436935/436935
[ 5] XISeditEventFits version 2.1
| OK: 436935/436935
GET: 436935
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
436936 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
436936 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
436936 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
436935 : XISputPixelQuality:ENTRY
436935 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
436935 : XISeditEventFits:ENTRY
436935 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 436935 436935 SINGLE
XIS:RAWX 4 4 436935 436935 SINGLE
XIS:RAWY 4 4 436935 873870 SINGLE
XIS:ACTX 4 4 436935 873870 SINGLE
XIS:ACTY 4 4 436935 873870 SINGLE
XIS:DETX 4 4 436935 436935 SINGLE
XIS:DETY 4 4 436935 436935 SINGLE
XIS:FOCX 4 4 436935 436935 SINGLE
XIS:FOCY 4 4 436935 436935 SINGLE
XIS:X 4 4 436935 436935 SINGLE
XIS:Y 4 4 436935 436935 SINGLE
XIS:STATUS 4 4 873870 436935 SINGLE
XIS:PHAS 36 36 436935 436935 SINGLE
XIS:PHANOCTI 4 4 436935 436935 SINGLE
XIS:PHA 4 4 436935 436935 SINGLE
XIS:PI 4 4 436935 436935 SINGLE
XIS:GRADE 4 4 436935 436935 SINGLE
XIS:P_OUTER_MOST 4 4 436935 436935 SINGLE
XIS:SUM_OUTER_MOST 4 4 436935 436935 SINGLE
XIS:AEDATE 4 4 436935 436935 FAMILY
XIS:EXPTIME 4 4 436935 436935 FAMILY
XIS:EXPTIME_AETIME 8 8 436935 436935 SINGLE
XIS:S_TIME 8 8 436935 436935 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 436935 436935 FAMILY
XIS:EVENT_SEQ_NO 4 4 436935 436935 SINGLE
XIS:TIME 8 8 436935 873870 SINGLE
XIS:EXP_CENT_AETIME 8 8 436935 436935 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 436937 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 0.352 0.246 0.598 3.14
[ 2] XISreadExp 0.117 0.231 0.348 1.82
[ 3] XISreadEvent 8.340 0.328 8.668 45.46
[ 4] XISputPixelQuality 0.687 0.284 0.971 5.09
[ 5] XISeditEventFits 7.652 0.807 8.459 44.36
(others) 0.013 0.011 0.024 0.13
--------------------------------------------------------------------------
TOTAL 17.160 1.907 19.067 100.00
-> xisputpixelquality successful on ae503032010xi1_0_3x3n069.sff.infile,f,a,"ae503032010xi1_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,"ae503032010xi1_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 ae503032010xi1_0_3x3n069.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi1_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 98-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi1_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae503032010xi1_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 ae503032010xi1_0.hk, S1_VDCHK18_CAL, nrows=934
nvalid=934 nrej=0 time=268465283.3 - 268495139.3 [s]
AE-temp: average=20.112 sigma=1.440 min=17.357 max=22.257 [degC]
Event... 1 (0)
... 0% ( 0 / 436935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 43693 / 436935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 87386 / 436935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 131079 / 436935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 174772 / 436935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 218465 / 436935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 262158 / 436935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 300001 (300000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 305851 / 436935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 349544 / 436935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 393237 / 436935 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 400001 (400000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 436935 / 436935 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./file31MVtY-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 436937
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 436936/436937
[ 2] XISreadExp version 1.6
| OK: 436936/436936
[ 3] XISreadEvent version 2.7
| OK: 436935/436936 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 436935/436935
[ 5] XIStrailCorrection version 3.1
| OK: 436935/436935
[ 6] XISctiCorrection version 3.4
| OK: 436935/436935
[ 7] XISgrade version 3.3
| OK: 436935/436935
[ 8] XISpha2pi version 3.2
| OK: 436935/436935
[ 9] XISeditEventFits version 2.1
| OK: 436935/436935
GET: 436935
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
436936 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
436936 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
436936 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
436935 : XISpreparePHASCORR:ENTRY
436935 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
436935 : XIStrailCorrection:ENTRY
436935 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
436935 : XISctiCorrection:ENTRY
436935 : XISctiCorrection:OK
1 : XISgrade:BEGIN
436935 : XISgrade:ENTRY
436935 : XISgrade:OK
1 : XISpha2pi:BEGIN
436935 : XISpha2pi:ENTRY
436935 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
436935 : XISeditEventFits:ENTRY
436935 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 1747746 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 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 436935 2184675 SINGLE
XIS:RAWX 4 4 436935 1310805 SINGLE
XIS:RAWY 4 4 436935 873870 SINGLE
XIS:ACTX 4 4 436935 436935 SINGLE
XIS:ACTY 4 4 436935 1310805 SINGLE
XIS:DETX 4 4 436935 436935 SINGLE
XIS:DETY 4 4 436935 436935 SINGLE
XIS:FOCX 4 4 436935 436935 SINGLE
XIS:FOCY 4 4 436935 436935 SINGLE
XIS:X 4 4 436935 436935 SINGLE
XIS:Y 4 4 436935 436935 SINGLE
XIS:STATUS 4 4 436935 436935 SINGLE
XIS:PHAS 36 36 436935 873870 SINGLE
XIS:PHANOCTI 4 4 873870 436935 SINGLE
XIS:PHA 4 4 873870 436935 SINGLE
XIS:PI 4 4 873870 436935 SINGLE
XIS:GRADE 4 4 873870 436935 SINGLE
XIS:P_OUTER_MOST 4 4 436935 873870 SINGLE
XIS:SUM_OUTER_MOST 4 4 436935 873870 SINGLE
XIS:AEDATE 4 4 436935 436935 FAMILY
XIS:EXPTIME 4 4 436935 436935 FAMILY
XIS:EXPTIME_AETIME 8 8 436935 436935 SINGLE
XIS:S_TIME 8 8 436935 436935 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 436935 436935 FAMILY
XIS:EVENT_SEQ_NO 4 4 436935 436935 SINGLE
XIS:TIME 8 8 436935 2184675 SINGLE
XIS:EXP_CENT_AETIME 8 8 436935 436935 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 436937 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 873870 436935 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 436935 436935 SINGLE
XIS:PHASCORR 72 72 1310805 1310805 SINGLE
XIS:PHA:DOUBLE 8 8 436935 436935 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 0.478 0.313 0.791 1.73
[ 2] XISreadExp 0.183 0.243 0.426 0.93
[ 3] XISreadEvent 10.251 0.409 10.660 23.26
[ 4] XISpreparePHASCORR 0.436 0.312 0.748 1.63
[ 5] XIStrailCorrection 1.114 0.287 1.401 3.06
[ 6] XISctiCorrection 13.654 4.802 18.456 40.27
[ 7] XISgrade 1.636 0.294 1.930 4.21
[ 8] XISpha2pi 1.149 0.300 1.449 3.16
[ 9] XISeditEventFits 9.238 0.696 9.934 21.67
(others) 0.025 0.013 0.038 0.08
--------------------------------------------------------------------------
TOTAL 38.163 7.669 45.832 100.00
-> xispi successful on ae503032010xi1_0_3x3n069.sff.infile,f,a,"ae503032010xi1_0_3x3n069.sff",,,"Name of input event fits file" outfile,f,a,"ae503032010xi1_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 ae503032010xi1_0_3x3n069.sff
OUTFILE ae503032010xi1_0_3x3n069.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae503032010xi1_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 / 436935 events )
... 10% ( 43693 / 436935 events )
... 20% ( 87386 / 436935 events )
... 30% ( 131079 / 436935 events )
... 40% ( 174772 / 436935 events )
... 50% ( 218465 / 436935 events )
... 60% ( 262158 / 436935 events )
... 70% ( 305851 / 436935 events )
... 80% ( 349544 / 436935 events )
... 90% ( 393237 / 436935 events )
... 100% ( 436935 / 436935 events )
XIScheckEventNo: GTI file 'ae503032010xi1_0_3x3n069.gti' created
N_FRAMES = 3732 / number of frames in the input event file
N_TESTED = 3732 / number of non-zero frames tested
N_PASSED = 3732 / number of frames passed the test
N_T_JUMP = 0 / number of frames detected time jump
N_SATURA = 0 / number of frames telemetry saturated
T_TESTED = 29856.000000 / exposure of non-zero frames tested
T_PASSED = 29856.000000 / exposure of frames passed the test
T_T_JUMP = 0.000000 / 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: 3733
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 3732/3733
[ 2] XISreadExp version 1.6
| OK: 3732/3732
[ 3] XISreadEvent version 2.7 <------- LOOP: 436935
| OK: 436935/440667 -------> SKIP: 3732
[ 4] XIScheckEventNo version 1.2
| OK: 436935/436935
GET: 436935
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
3732 : XISreadFrame:ENTRY
3732 : XISreadFrame:OK
1 : XISreadExp:BEGIN
3732 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
440667 : XISreadEvent:ENTRY
440666 : XISreadEvent:OK
3732 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
436935 : XIScheckEventNo:ENTRY
436935 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 3732 440667 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 3732 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 3732 440667 SINGLE
XIS:FRAMES:S_TIME 8 8 3732 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 3732 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 3732 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 3732 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 3732 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 3732 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 3732 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 3732 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 3732 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 3732 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 3732 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 3732 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 3732 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 3732 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 3732 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 3732 3732 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 3732 0 SINGLE
XIS:FRAMES:BIAS 16 16 3732 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 3732 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 3732 0 SINGLE
XIS:FRAMES:AEDATE 4 4 3732 440667 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 3732 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 3732 436935 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 3732 3732 SINGLE
XIS:FRAMES:TIME 8 8 3732 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 436935 436935 SINGLE
XIS:RAWX 4 4 436935 0 SINGLE
XIS:RAWY 4 4 436935 0 SINGLE
XIS:ACTX 4 4 436935 0 SINGLE
XIS:ACTY 4 4 436935 0 SINGLE
XIS:DETX 4 4 436935 0 SINGLE
XIS:DETY 4 4 436935 0 SINGLE
XIS:FOCX 4 4 436935 0 SINGLE
XIS:FOCY 4 4 436935 0 SINGLE
XIS:X 4 4 436935 0 SINGLE
XIS:Y 4 4 436935 0 SINGLE
XIS:STATUS 4 4 436935 0 SINGLE
XIS:PHAS 36 36 436935 0 SINGLE
XIS:PHANOCTI 4 4 436935 0 SINGLE
XIS:PHA 4 4 436935 0 SINGLE
XIS:PI 4 4 436935 0 SINGLE
XIS:GRADE 4 4 436935 0 SINGLE
XIS:P_OUTER_MOST 4 4 436935 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 436935 0 SINGLE
XIS:AEDATE 4 4 436935 440666 FAMILY
XIS:EXPTIME 4 4 436935 440666 FAMILY
XIS:EXPTIME_AETIME 8 8 436935 0 SINGLE
XIS:S_TIME 8 8 436935 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 436935 440666 FAMILY
XIS:EVENT_SEQ_NO 4 4 436935 440666 SINGLE
XIS:TIME 8 8 436935 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 436935 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 0.869 0.009 0.878 8.63
[ 2] XISreadExp 0.005 0.003 0.008 0.08
[ 3] XISreadEvent 8.499 0.289 8.788 86.43
[ 4] XIScheckEventNo 0.208 0.260 0.468 4.60
(others) 0.018 0.008 0.026 0.26
--------------------------------------------------------------------------
TOTAL 9.599 0.569 10.167 100.00
-> xisgtigen successful on ae503032010xi1_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 ae503032010xi3_0_3x3n066.sff
### Processed 1 files, skipped 0 files.
-> xisucode successful on ae503032010xi3_0_3x3n066.fff.infile,f,a,"ae503032010xi3_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,"ae503032010.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 ae503032010xi3_0_3x3n066.sff
OUTFILE xistime_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi3_0_3x3n066.sff'
ANL: *** XIStime show parameter ***
GAPSEC 0.100000 (s)
TIMFILE ae503032010.tim
EDITMODE = 1
PSUM_L = 0
WINOPT = 0
SNAPTI1 = 8.000000
DELAY1 = 0.000000
aste_ti2time: reading 'ae503032010.tim[TIME_PACKETS_SEL]' ...
ntpk=23
aste_ti2time: reading 'ae503032010.tim[DP_TIMC]' ...
ndpk=77218, t=268261905.426 - 268796121.350
aste_ti2time: reading 'ae503032010.tim[DP_DHU_AVG]' ...
1: t0=268264021,N0=2766667776,Y=7457319/7060827,f=16777218.555,j=1,d=0
2: t0=268276245,N0=2816737280,Y=7060827/6865426,f=16777218.676,j=0,d=0
3: t0=268282325,N0=2841640960,Y=6865426/6667202,f=16777218.449,j=0,d=0
4: t0=268288405,N0=2866544640,Y=6667202/5099501,f=16777218.526,j=0,d=0
5: t0=268344213,N0=3095134208,Y=5099501/4702263,f=16777218.533,j=0,d=0
6: t0=268356437,N0=3145203712,Y=4702263/4502841,f=16777218.353,j=0,d=0
7: t0=268362517,N0=3170107392,Y=4502841/4304976,f=16777218.693,j=0,d=0
8: t0=268368597,N0=3195011072,Y=4304976/2614672,f=16777218.503,j=0,d=0
9: t0=268430517,N0=3448635392,Y=2614672/2276627,f=16777218.465,j=0,d=0
10: t0=268442741,N0=3498704896,Y=2276627/2104692,f=16777218.411,j=0,d=0
11: t0=268448821,N0=3523608576,Y=2104692/1931388,f=16777218.568,j=0,d=0
12: t0=268454869,N0=3548381184,Y=1931388/455270,f=16777218.475,j=0,d=0
13: t0=268516821,N0=3802136576,Y=455270/100558,f=16777218.485,j=0,d=0
14: t0=268529045,N0=3852206080,Y=100558/-70520,f=16777218.500,j=0,d=0
15: t0=268535125,N0=3877109760,Y=-70520/-247914,f=16777218.693,j=0,d=0
16: t0=268541173,N0=3901882368,Y=-247914/-1581585,f=16777218.474,j=0,d=0
17: t0=268597013,N0=4130603008,Y=-1581585/-1746124,f=16777218.363,j=0,d=0
18: t0=268603125,N0=4155637760,Y=-1746124/-2103382,f=16777218.594,j=0,d=0
19: t0=268615317,N0=4205576192,Y=-2103382/-2277974,f=16777218.404,j=0,d=0
20: t0=268621429,N0=4230610944,Y=-2277974/-5973081,f=16777218.489,j=0,d=0
21: t0=268769621,N0=542638080,Y=-5973081/-6140670,f=16777218.588,j=0,d=0
22: t0=268775765,N0=567803904,Y=-6140670/-6492479,f=16777218.546,j=0,d=0
23: t0=268787957,N0=617742336,Y=-6492479/-6663190,f=16777218.441,j=0,d=0
Event... 1 (0)
... 0% ( 0 / 212533 events )
... 10% ( 21253 / 212533 events )
... 20% ( 42506 / 212533 events )
... 30% ( 63759 / 212533 events )
... 40% ( 85012 / 212533 events )
Event... 100001 (100000)
... 50% ( 106265 / 212533 events )
... 60% ( 127518 / 212533 events )
... 70% ( 148771 / 212533 events )
... 80% ( 170024 / 212533 events )
... 90% ( 191277 / 212533 events )
Event... 200001 (200000)
... 100% ( 212533 / 212533 events )
Updating GTI extension ...
Updating FRAMES extension ...
Updating EXPOSURES extension ...
Updating LOSTAREAS extension ...
Updating header keywords ...
TSTART = 268465260.781244 / time start
TSTOP = 268495132.777301 / time stop
TELAPASE = 29871.996057 / elapsed time = TSTOP - TSTART
ONTIME = 29871.996057 / on time = sum of all GTIs
LIVETIME = 29871.996057 / on-source time corrected for CCD exposure
EXPOSURE = 29871.996057 / exposure time
xisEventFitsUtil: rename ./fileOwf9Dt-xis_PRIMARY.evt -> xistime_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 212535
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 212534/212535
[ 2] XISreadExp version 1.6
| OK: 212534/212534
[ 3] XISreadEvent version 2.7
| OK: 212533/212534 -------> SKIP: 1
[ 4] XIStime version 1.3
| OK: 212533/212533
[ 5] XISeditEventFits version 2.1
| OK: 212533/212533
GET: 212533
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
212534 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
212534 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
212534 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIStime:BEGIN
212533 : XIStime:ENTRY
212533 : XIStime:OK
1 : XISeditEventFits:BEGIN
212533 : XISeditEventFits:ENTRY
212533 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 1 SINGLE
XIS:DELAY1 8 8 1 1 SINGLE
XIS:PSUM_L 4 4 1 1 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 212533 212533 SINGLE
XIS:RAWX 4 4 212533 212533 SINGLE
XIS:RAWY 4 4 212533 212533 SINGLE
XIS:ACTX 4 4 212533 212533 SINGLE
XIS:ACTY 4 4 212533 212533 SINGLE
XIS:DETX 4 4 212533 212533 SINGLE
XIS:DETY 4 4 212533 212533 SINGLE
XIS:FOCX 4 4 212533 212533 SINGLE
XIS:FOCY 4 4 212533 212533 SINGLE
XIS:X 4 4 212533 212533 SINGLE
XIS:Y 4 4 212533 212533 SINGLE
XIS:STATUS 4 4 212533 212533 SINGLE
XIS:PHAS 36 36 212533 212533 SINGLE
XIS:PHANOCTI 4 4 212533 212533 SINGLE
XIS:PHA 4 4 212533 212533 SINGLE
XIS:PI 4 4 212533 212533 SINGLE
XIS:GRADE 4 4 212533 212533 SINGLE
XIS:P_OUTER_MOST 4 4 212533 212533 SINGLE
XIS:SUM_OUTER_MOST 4 4 212533 212533 SINGLE
XIS:AEDATE 4 4 425066 212533 FAMILY
XIS:EXPTIME 4 4 212533 425066 FAMILY
XIS:EXPTIME_AETIME 8 8 425066 212533 SINGLE
XIS:S_TIME 8 8 212533 425066 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 212533 425066 FAMILY
XIS:EVENT_SEQ_NO 4 4 212533 212533 SINGLE
XIS:TIME 8 8 425066 212533 SINGLE
XIS:EXP_CENT_AETIME 8 8 425066 212533 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 212535 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
ASTE:TI2TIME:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 1 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 1 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.221 0.139 0.360 3.00
[ 2] XISreadExp 0.079 0.146 0.225 1.88
[ 3] XISreadEvent 5.090 0.290 5.380 44.91
[ 4] XIStime 0.826 0.182 1.008 8.41
[ 5] XISeditEventFits 4.652 0.334 4.986 41.62
(others) 0.015 0.007 0.022 0.18
--------------------------------------------------------------------------
TOTAL 10.883 1.098 11.981 100.00
-> xistime successful on ae503032010xi3_0_3x3n066.sff.infile,f,a,"ae503032010xi3_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,"ae503032010.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 ae503032010xi3_0_3x3n066.sff
OUTFILE xiscoord_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi3_0_3x3n066.sff'
XIScoord: *** show parameter ***
TELDEF '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_teldef_20080303.fits' (CALDB)
ATTITUDE 'ae503032010.att'
SKYREF (133.6175, -46.3272, 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 = 133.61750 / X reference pixel value (deg)
TCDLT10 = -0.0002895 / X pixel scale (deg/pixel)
OPTIC10 = 745.08 / 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 = -46.32720 / Y reference pixel value (deg)
TCDLT11 = 0.0002895 / Y pixel scale (deg/pixel)
OPTIC11 = 811.71 / Y of the optical axis (pixel)
Event... 1 (0)
... 0% ( 0 / 212533 events )
... 10% ( 21253 / 212533 events )
... 20% ( 42506 / 212533 events )
... 30% ( 63759 / 212533 events )
... 40% ( 85012 / 212533 events )
Event... 100001 (100000)
... 50% ( 106265 / 212533 events )
... 60% ( 127518 / 212533 events )
... 70% ( 148771 / 212533 events )
... 80% ( 170024 / 212533 events )
... 90% ( 191277 / 212533 events )
Event... 200001 (200000)
... 100% ( 212533 / 212533 events )
xisEventFitsUtil: rename ./fileg1N8oS-xis_PRIMARY.evt -> xiscoord_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 212535
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 212534/212535
[ 2] XISreadExp version 1.6
| OK: 212534/212534
[ 3] XISreadEvent version 2.7
| OK: 212533/212534 -------> SKIP: 1
[ 4] XIScoord version 2.7
| OK: 212533/212533
[ 5] XISeditEventFits version 2.1
| OK: 212533/212533
GET: 212533
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
212534 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
212534 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
212534 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XIScoord:BEGIN
212533 : XIScoord:ENTRY
212533 : XIScoord:OK
1 : XISeditEventFits:BEGIN
212533 : XISeditEventFits:ENTRY
212533 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 2 SINGLE
XIS:TELESCOP 8 8 1 1 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 4 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 1 SINGLE
XIS:WIN_ST 4 4 1 1 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 212533 425066 SINGLE
XIS:RAWX 4 4 212533 425066 SINGLE
XIS:RAWY 4 4 212533 425066 SINGLE
XIS:ACTX 4 4 425066 212533 SINGLE
XIS:ACTY 4 4 425066 212533 SINGLE
XIS:DETX 4 4 425066 212533 SINGLE
XIS:DETY 4 4 425066 212533 SINGLE
XIS:FOCX 4 4 425066 212533 SINGLE
XIS:FOCY 4 4 425066 212533 SINGLE
XIS:X 4 4 425066 212533 SINGLE
XIS:Y 4 4 425066 212533 SINGLE
XIS:STATUS 4 4 212533 212533 SINGLE
XIS:PHAS 36 36 212533 212533 SINGLE
XIS:PHANOCTI 4 4 212533 212533 SINGLE
XIS:PHA 4 4 212533 212533 SINGLE
XIS:PI 4 4 212533 212533 SINGLE
XIS:GRADE 4 4 212533 212533 SINGLE
XIS:P_OUTER_MOST 4 4 212533 212533 SINGLE
XIS:SUM_OUTER_MOST 4 4 212533 212533 SINGLE
XIS:AEDATE 4 4 212533 212533 FAMILY
XIS:EXPTIME 4 4 212533 212533 FAMILY
XIS:EXPTIME_AETIME 8 8 212533 212533 SINGLE
XIS:S_TIME 8 8 212533 212533 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 212533 212533 FAMILY
XIS:EVENT_SEQ_NO 4 4 212533 212533 SINGLE
XIS:TIME 8 8 212533 425066 SINGLE
XIS:EXP_CENT_AETIME 8 8 212533 212533 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 212535 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:OUTFITS:NUM_EXT 4 4 1 0 SINGLE
XIS:OUTFITS:FITS_EXT:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:FRAMES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EXPOSURES:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:EVENTS:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:LOSTAREAS:PTR 4 4 1 0 SINGLE
XIS:OUTFITS:GTI:PTR 4 4 1 0 SINGLE
------------------------------------------------------------------------------
**************************
**** Analysis profile ****
**************************
USER SYSTEM SUM FRAC
(s) (s) (s) (%)
[ 1] XISreadFrame 0.250 0.167 0.417 2.95
[ 2] XISreadExp 0.071 0.147 0.218 1.54
[ 3] XISreadEvent 5.703 0.215 5.918 41.91
[ 4] XIScoord 1.895 0.235 2.130 15.08
[ 5] XISeditEventFits 5.024 0.383 5.407 38.29
(others) 0.021 0.010 0.031 0.22
--------------------------------------------------------------------------
TOTAL 12.964 1.157 14.121 100.00
-> xiscoord successful on ae503032010xi3_0_3x3n066.sff.infile,f,a,"ae503032010xi3_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 ae503032010xi3_0_3x3n066.sff
OUTFILE xisputpixelquality_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi3_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 / 212533 events )
... 10% ( 21253 / 212533 events )
... 20% ( 42506 / 212533 events )
... 30% ( 63759 / 212533 events )
... 40% ( 85012 / 212533 events )
Event... 100001 (100000)
... 50% ( 106265 / 212533 events )
... 60% ( 127518 / 212533 events )
... 70% ( 148771 / 212533 events )
... 80% ( 170024 / 212533 events )
... 90% ( 191277 / 212533 events )
Event... 200001 (200000)
... 100% ( 212533 / 212533 events )
==============================================================
Bit Decimal Name Count Frac
--------------------------------------------------------------
B0 1 ***RESERVED*** 0 0.00
B1 2 AREADISCRI_EDGE 0 0.00
B2 4 2PIX_FROM_SEGBOUNDARY 3452 1.62
B3 8 2PIX_FROM_PRECEDING 0 0.00
B4 16 2PIX_FROM_BADCTE 8393 3.95
B5 32 2PIX_FROM_HOT 0 0.00
B6 64 2PIX_FROM_FLICKERING 0 0.00
B7 128 2PIX_FROM_WINBOUNDARY 2323 1.09
B8 256 1PIX_FROM_SEGBOUNDARY 1129 0.53
B9 512 SCI_3rd_TRAILING_ROW 2763 1.30
B10 1024 1PIX_FROM_PRECEDING 0 0.00
B11 2048 PRECEDING 0 0.00
B12 4096 1PIX_FROM_BADCTE 9583 4.51
B13 8192 1PIX_FROM_HOT 0 0.00
B14 16384 1PIX_FROM_FLICKERING 0 0.00
B15 32768 SCI_2nd_PRECEDING_ROW 2898 1.36
B16 65536 CALMASK 32651 15.36
B17 131072 SEGBOUNDARY 4639 2.18
B18 262144 SCI_2nd_TRAILING_ROW 2706 1.27
B19 524288 1PIX_FROM_WINBOUNDARY 0 0.00
B20 1048576 BADCTE 11005 5.18
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 26032 12.25
B29 536870912 SCI_TRAILING_ROW 27102 12.75
B30 1073741824 SCI_AP_ROW 0 0.00
B31 2147483648 SCI_ROW 57 0.03
### 0 CLEAN_ZERO 106285 50.01
--------------------------------------------------------------
+++ 4294967295 SUM 241018 113.40
::: 524287 SAFE(B0-18) 151778 71.41
>>> 4294967295 TOTAL 212533 100.00
--------------------------------------------------------------
xisEventFitsUtil: rename ./fileOgkltO-xis_PRIMARY.evt -> xisputpixelquality_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 212535
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 212534/212535
[ 2] XISreadExp version 1.6
| OK: 212534/212534
[ 3] XISreadEvent version 2.7
| OK: 212533/212534 -------> SKIP: 1
[ 4] XISputPixelQuality version 2.0
| OK: 212533/212533
[ 5] XISeditEventFits version 2.1
| OK: 212533/212533
GET: 212533
*** results of Event selection *** < Number of selects : 20 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
212534 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
212534 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
212534 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISputPixelQuality:BEGIN
212533 : XISputPixelQuality:ENTRY
212533 : XISputPixelQuality:OK
1 : XISeditEventFits:BEGIN
212533 : XISeditEventFits:ENTRY
212533 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 187/5000
buffer size : 120000
buffer used : 4288
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 1 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 3 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 212533 212533 SINGLE
XIS:RAWX 4 4 212533 212533 SINGLE
XIS:RAWY 4 4 212533 425066 SINGLE
XIS:ACTX 4 4 212533 425066 SINGLE
XIS:ACTY 4 4 212533 425066 SINGLE
XIS:DETX 4 4 212533 212533 SINGLE
XIS:DETY 4 4 212533 212533 SINGLE
XIS:FOCX 4 4 212533 212533 SINGLE
XIS:FOCY 4 4 212533 212533 SINGLE
XIS:X 4 4 212533 212533 SINGLE
XIS:Y 4 4 212533 212533 SINGLE
XIS:STATUS 4 4 425066 212533 SINGLE
XIS:PHAS 36 36 212533 212533 SINGLE
XIS:PHANOCTI 4 4 212533 212533 SINGLE
XIS:PHA 4 4 212533 212533 SINGLE
XIS:PI 4 4 212533 212533 SINGLE
XIS:GRADE 4 4 212533 212533 SINGLE
XIS:P_OUTER_MOST 4 4 212533 212533 SINGLE
XIS:SUM_OUTER_MOST 4 4 212533 212533 SINGLE
XIS:AEDATE 4 4 212533 212533 FAMILY
XIS:EXPTIME 4 4 212533 212533 FAMILY
XIS:EXPTIME_AETIME 8 8 212533 212533 SINGLE
XIS:S_TIME 8 8 212533 212533 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 212533 212533 FAMILY
XIS:EVENT_SEQ_NO 4 4 212533 212533 SINGLE
XIS:TIME 8 8 212533 425066 SINGLE
XIS:EXP_CENT_AETIME 8 8 212533 212533 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 212535 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 0.195 0.164 0.359 2.90
[ 2] XISreadExp 0.078 0.132 0.210 1.70
[ 3] XISreadEvent 5.425 0.223 5.648 45.62
[ 4] XISputPixelQuality 0.495 0.169 0.664 5.36
[ 5] XISeditEventFits 4.963 0.515 5.478 44.25
(others) 0.013 0.009 0.022 0.18
--------------------------------------------------------------------------
TOTAL 11.169 1.212 12.381 100.00
-> xisputpixelquality successful on ae503032010xi3_0_3x3n066.sff.infile,f,a,"ae503032010xi3_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,"ae503032010xi3_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 ae503032010xi3_0_3x3n066.sff
OUTFILE xispi_out.evt
IGNORE_FRAMES YES
XISreadFrame: succeeded in opening 'ae503032010xi3_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 98-th row
ANL: *** XISgrade show parameter ***
FLAG_CONSTANT_SPTH NO
MAKEPIFILE '/aps/calibration/hxd20080602_xis20080602_xrt20080602_xrs20060410/data/suzaku/xis/bcf/ae_xi3_makepi_20080131.fits' (CALDB)
reading SPTH_PARAM at 1-th row
ANL: *** XISpha2pi show parameter ***
HKFILE 'ae503032010xi3_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 ae503032010xi3_0.hk, S3_VDCHK18_CAL, nrows=935
nvalid=935 nrej=0 time=268465267.3 - 268495155.3 [s]
AE-temp: average=15.649 sigma=1.198 min=13.985 max=17.590 [degC]
Event... 1 (0)
... 0% ( 0 / 212533 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 10% ( 21253 / 212533 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 20% ( 42506 / 212533 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 30% ( 63759 / 212533 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 40% ( 85012 / 212533 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 100001 (100000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 50% ( 106265 / 212533 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 60% ( 127518 / 212533 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 70% ( 148771 / 212533 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
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reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 80% ( 170024 / 212533 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 90% ( 191277 / 212533 events )
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
Event... 200001 (200000)
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
reading PARALLEL_CTI_SCI at 98-th row
... 100% ( 212533 / 212533 events )
XISpha2pi: updating header keywords ...
TLMIN16 = 0 / Minimum range
TLMAX16 = 4095 / Maximum range
xisEventFitsUtil: rename ./filedWqDZM-xis_PRIMARY.evt -> xispi_out.evt
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 212535
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 212534/212535
[ 2] XISreadExp version 1.6
| OK: 212534/212534
[ 3] XISreadEvent version 2.7
| OK: 212533/212534 -------> SKIP: 1
[ 4] XISpreparePHASCORR version 3.2
| OK: 212533/212533
[ 5] XIStrailCorrection version 3.1
| OK: 212533/212533
[ 6] XISctiCorrection version 3.4
| OK: 212533/212533
[ 7] XISgrade version 3.3
| OK: 212533/212533
[ 8] XISpha2pi version 3.2
| OK: 212533/212533
[ 9] XISeditEventFits version 2.1
| OK: 212533/212533
GET: 212533
*** results of Event selection *** < Number of selects : 32 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
212534 : XISreadFrame:ENTRY
0 : XISreadFrame:OK
1 : XISreadExp:BEGIN
212534 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
212534 : XISreadEvent:ENTRY
0 : XISreadEvent:OK
0 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
1 : XISpreparePHASCORR:BEGIN
212533 : XISpreparePHASCORR:ENTRY
212533 : XISpreparePHASCORR:OK
1 : XIStrailCorrection:BEGIN
212533 : XIStrailCorrection:ENTRY
212533 : XIStrailCorrection:OK
1 : XISctiCorrection:BEGIN
212533 : XISctiCorrection:ENTRY
212533 : XISctiCorrection:OK
1 : XISgrade:BEGIN
212533 : XISgrade:ENTRY
212533 : XISgrade:OK
1 : XISpha2pi:BEGIN
212533 : XISpha2pi:ENTRY
212533 : XISpha2pi:OK
1 : XISeditEventFits:BEGIN
212533 : XISeditEventFits:ENTRY
212533 : XISeditEventFits:OK
BNK: (data storge system) Ver.3.4
# of key : 191/5000
buffer size : 120000
buffer used : 4480
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 4 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 850138 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 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 212533 1062665 SINGLE
XIS:RAWX 4 4 212533 637599 SINGLE
XIS:RAWY 4 4 212533 425066 SINGLE
XIS:ACTX 4 4 212533 212533 SINGLE
XIS:ACTY 4 4 212533 637599 SINGLE
XIS:DETX 4 4 212533 212533 SINGLE
XIS:DETY 4 4 212533 212533 SINGLE
XIS:FOCX 4 4 212533 212533 SINGLE
XIS:FOCY 4 4 212533 212533 SINGLE
XIS:X 4 4 212533 212533 SINGLE
XIS:Y 4 4 212533 212533 SINGLE
XIS:STATUS 4 4 212533 212533 SINGLE
XIS:PHAS 36 36 212533 425066 SINGLE
XIS:PHANOCTI 4 4 425066 212533 SINGLE
XIS:PHA 4 4 425066 212533 SINGLE
XIS:PI 4 4 425066 212533 SINGLE
XIS:GRADE 4 4 425066 212533 SINGLE
XIS:P_OUTER_MOST 4 4 212533 425066 SINGLE
XIS:SUM_OUTER_MOST 4 4 212533 425066 SINGLE
XIS:AEDATE 4 4 212533 212533 FAMILY
XIS:EXPTIME 4 4 212533 212533 FAMILY
XIS:EXPTIME_AETIME 8 8 212533 212533 SINGLE
XIS:S_TIME 8 8 212533 212533 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 212533 212533 FAMILY
XIS:EVENT_SEQ_NO 4 4 212533 212533 SINGLE
XIS:TIME 8 8 212533 1062665 SINGLE
XIS:EXP_CENT_AETIME 8 8 212533 212533 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 212535 SINGLE
XIS:READEVENT:NOTYETFETCHED 4 4 2 0 SINGLE
XIS:PHASNOCTI 72 72 425066 212533 SINGLE
XIS:PHANOCTI:DOUBLE 8 8 212533 212533 SINGLE
XIS:PHASCORR 72 72 637599 637599 SINGLE
XIS:PHA:DOUBLE 8 8 212533 212533 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 0.237 0.136 0.373 1.30
[ 2] XISreadExp 0.073 0.147 0.220 0.77
[ 3] XISreadEvent 4.919 0.223 5.142 17.94
[ 4] XISpreparePHASCORR 0.239 0.145 0.384 1.34
[ 5] XIStrailCorrection 0.587 0.152 0.739 2.58
[ 6] XISctiCorrection 10.506 4.590 15.097 52.67
[ 7] XISgrade 0.935 0.133 1.068 3.73
[ 8] XISpha2pi 0.635 0.138 0.773 2.70
[ 9] XISeditEventFits 4.480 0.351 4.831 16.86
(others) 0.026 0.010 0.036 0.13
--------------------------------------------------------------------------
TOTAL 22.638 6.025 28.663 100.00
-> xispi successful on ae503032010xi3_0_3x3n066.sff.infile,f,a,"ae503032010xi3_0_3x3n066.sff",,,"Name of input event fits file" outfile,f,a,"ae503032010xi3_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 ae503032010xi3_0_3x3n066.sff
OUTFILE ae503032010xi3_0_3x3n066.gti
IGNORE_FRAMES NO
XISreadFrame: succeeded in opening 'ae503032010xi3_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 / 212533 events )
... 10% ( 21253 / 212533 events )
... 20% ( 42506 / 212533 events )
... 30% ( 63759 / 212533 events )
... 40% ( 85012 / 212533 events )
... 50% ( 106265 / 212533 events )
... 60% ( 127518 / 212533 events )
... 70% ( 148771 / 212533 events )
... 80% ( 170024 / 212533 events )
... 90% ( 191277 / 212533 events )
... 100% ( 212533 / 212533 events )
XIScheckEventNo: GTI file 'ae503032010xi3_0_3x3n066.gti' created
N_FRAMES = 3734 / number of frames in the input event file
N_TESTED = 3734 / number of non-zero frames tested
N_PASSED = 3734 / number of frames passed the test
N_T_JUMP = 0 / number of frames detected time jump
N_SATURA = 0 / number of frames telemetry saturated
T_TESTED = 29872.000000 / exposure of non-zero frames tested
T_PASSED = 29872.000000 / exposure of frames passed the test
T_T_JUMP = 0.000000 / 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: 3735
QUIT: 1 |
<--- [ 1] XISreadFrame version 1.6
| OK: 3734/3735
[ 2] XISreadExp version 1.6
| OK: 3734/3734
[ 3] XISreadEvent version 2.7 <------- LOOP: 212533
| OK: 212533/216267 -------> SKIP: 3734
[ 4] XIScheckEventNo version 1.2
| OK: 212533/212533
GET: 212533
*** results of Event selection *** < Number of selects : 17 > (EVS Ver.3.4)
1 : XISreadFrame:BEGIN
3734 : XISreadFrame:ENTRY
3734 : XISreadFrame:OK
1 : XISreadExp:BEGIN
3734 : XISreadExp:ENTRY
0 : XISreadExp:OK
0 : XIS:frame first exp
0 : XIS:frame last exp
1 : XISreadEvent:BEGIN
216267 : XISreadEvent:ENTRY
216266 : XISreadEvent:OK
3734 : XIS:frame first event
0 : XIS:frame last event
1 : XIS:skip event
0 : XIScheckEventNo:BEGIN
212533 : XIScheckEventNo:ENTRY
212533 : XIScheckEventNo:OK
BNK: (data storge system) Ver.3.4
# of key : 244/5000
buffer size : 120000
buffer used : 6400
------------------------------------------------------------------------------
Name Allocated Used #Put #Get Attrib
------------------------------------------------------------------------------
XIS:FILENAME 1025 29 1 0 SINGLE
XIS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:OUTFITS:FILENAME:PTR 4 4 1 1 SINGLE
XIS:FITS:PTR 4 4 1 3 SINGLE
XIS:TELESCOP 8 8 1 0 SINGLE
XIS:INSTRUME 6 6 1 0 SINGLE
XIS:SENSOR 4 4 1 0 SINGLE
XIS:OBS_MODE 10 10 1 0 SINGLE
XIS:DATAMODE 10 10 1 0 SINGLE
XIS:XIS-AEID 13 13 1 0 SINGLE
XIS:EDITMODE 4 4 1 2 SINGLE
XIS:CLK_MODE 4 4 1 0 SINGLE
XIS:CODE_ID 4 4 1 0 SINGLE
XIS:WINOPT 4 4 1 0 SINGLE
XIS:WIN_ST 4 4 1 0 SINGLE
XIS:WIN_SIZ 4 4 1 0 SINGLE
XIS:SNAPTI1 8 8 1 0 SINGLE
XIS:DELAY1 8 8 1 0 SINGLE
XIS:PSUM_L 4 4 1 0 SINGLE
XIS:CI 4 4 1 0 SINGLE
XIS:BINNING 4 4 1 0 SINGLE
XIS:SRAM_VER 13 13 1 0 SINGLE
XIS:SCIPERIY 4 4 1 0 SINGLE
XIS:SCISTATY 4 4 1 0 SINGLE
XIS:SCISPEED 4 4 1 0 SINGLE
XIS:SCIN 4 4 1 0 SINGLE
XIS:SCIY1 4 4 1 0 SINGLE
XIS:SCIY2 4 4 1 0 SINGLE
XIS:SCIY3 4 4 1 0 SINGLE
XIS:SCIY4 4 4 1 0 SINGLE
XIS:SCIY5 4 4 1 0 SINGLE
XIS:SCIY6 4 4 1 0 SINGLE
XIS:SCIY7 4 4 1 0 SINGLE
XIS:SCIY8 4 4 1 0 SINGLE
XIS:SCIY9 4 4 1 0 SINGLE
XIS:SCIY10 4 4 1 0 SINGLE
XIS:SCIY11 4 4 1 0 SINGLE
XIS:SCIY12 4 4 1 0 SINGLE
XIS:SCIY13 4 4 1 0 SINGLE
XIS:SCIY14 4 4 1 0 SINGLE
XIS:SCIY15 4 4 1 0 SINGLE
XIS:SCIY16 4 4 1 0 SINGLE
XIS:SCIY17 4 4 1 0 SINGLE
XIS:SCIY18 4 4 1 0 SINGLE
XIS:SCIY19 4 4 1 0 SINGLE
XIS:AP4N 4 4 1 0 SINGLE
XIS:AP4Y1 4 4 1 0 SINGLE
XIS:AP4Y2 4 4 1 0 SINGLE
XIS:AP256N 4 4 1 0 SINGLE
XIS:AP256Y1 4 4 1 0 SINGLE
XIS:OBS_ID 11 11 1 0 SINGLE
XIS:OBSERVER 19 19 1 0 SINGLE
XIS:OBJECT 13 13 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 3734 216267 SINGLE
XIS:FRAMES:LINE_SEQ_NO 4 4 3734 0 SINGLE
XIS:FRAMES:EXPTIME 4 4 3734 216267 SINGLE
XIS:FRAMES:S_TIME 8 8 3734 0 SINGLE
XIS:FRAMES:PIXBUF_FLIPTIME 4 4 3734 0 SINGLE
XIS:FRAMES:AREA_DISCRI_ENA 16 16 3734 0 SINGLE
XIS:FRAMES:GRADE_DISCRI_ENA 4 4 3734 0 SINGLE
XIS:FRAMES:EVENT_BUF_ID 16 16 3734 0 SINGLE
XIS:FRAMES:PIXEL_BUF_ID 16 16 3734 0 SINGLE
XIS:FRAMES:HOT_P_OVF 16 16 3734 0 SINGLE
XIS:FRAMES:PPU_TIME_OUT 16 16 3734 0 SINGLE
XIS:FRAMES:EVENT_RAM_FULL 16 16 3734 0 SINGLE
XIS:FRAMES:OTHER_ERR 16 16 3734 0 SINGLE
XIS:FRAMES:A_CHK_ERR 16 16 3734 0 SINGLE
XIS:FRAMES:F_SYNC_ERR 16 16 3734 0 SINGLE
XIS:FRAMES:L_SYNC_ERR 16 16 3734 0 SINGLE
XIS:FRAMES:PCODE_PARITY_ERR 16 16 3734 0 SINGLE
XIS:FRAMES:INSIDE_EV_TH_PIXEL 16 16 3734 0 SINGLE
XIS:FRAMES:EVENT_TOT_NO 16 16 3734 3734 SINGLE
XIS:FRAMES:ABOVE_EV_TH_UPPER 16 16 3734 0 SINGLE
XIS:FRAMES:BIAS 16 16 3734 0 SINGLE
XIS:FRAMES:LAST_LINE 16 16 3734 0 SINGLE
XIS:FRAMES:LIGHT_LEAK 1024 1024 3734 0 SINGLE
XIS:FRAMES:AEDATE 4 4 3734 216267 SINGLE
XIS:FRAMES:EXPTIME_AETIME 8 8 3734 0 SINGLE
XIS:FRAMES:FRAME_ST_AETIME 8 8 3734 212533 SINGLE
XIS:FRAMES:FRAME_END_AETIME 8 8 3734 3734 SINGLE
XIS:FRAMES:TIME 8 8 3734 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 212533 212533 SINGLE
XIS:RAWX 4 4 212533 0 SINGLE
XIS:RAWY 4 4 212533 0 SINGLE
XIS:ACTX 4 4 212533 0 SINGLE
XIS:ACTY 4 4 212533 0 SINGLE
XIS:DETX 4 4 212533 0 SINGLE
XIS:DETY 4 4 212533 0 SINGLE
XIS:FOCX 4 4 212533 0 SINGLE
XIS:FOCY 4 4 212533 0 SINGLE
XIS:X 4 4 212533 0 SINGLE
XIS:Y 4 4 212533 0 SINGLE
XIS:STATUS 4 4 212533 0 SINGLE
XIS:PHAS 36 36 212533 0 SINGLE
XIS:PHANOCTI 4 4 212533 0 SINGLE
XIS:PHA 4 4 212533 0 SINGLE
XIS:PI 4 4 212533 0 SINGLE
XIS:GRADE 4 4 212533 0 SINGLE
XIS:P_OUTER_MOST 4 4 212533 0 SINGLE
XIS:SUM_OUTER_MOST 4 4 212533 0 SINGLE
XIS:AEDATE 4 4 212533 216266 FAMILY
XIS:EXPTIME 4 4 212533 216266 FAMILY
XIS:EXPTIME_AETIME 8 8 212533 0 SINGLE
XIS:S_TIME 8 8 212533 0 SINGLE
XIS:EXPOSURE_SEQ_NO 4 4 212533 216266 FAMILY
XIS:EVENT_SEQ_NO 4 4 212533 216266 SINGLE
XIS:TIME 8 8 212533 0 SINGLE
XIS:EXP_CENT_AETIME 8 8 212533 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 0.976 0.013 0.989 14.47
[ 2] XISreadExp 0.006 0.005 0.011 0.16
[ 3] XISreadEvent 5.390 0.192 5.582 81.66
[ 4] XIScheckEventNo 0.114 0.114 0.228 3.33
(others) 0.016 0.010 0.026 0.38
--------------------------------------------------------------------------
TOTAL 6.502 0.334 6.836 100.00
-> xisgtigen successful on ae503032010xi3_0_3x3n066.sff.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae503032010xi0_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 x6 x
2.684661075318861E+08 2.684694230000000E+08 2.684718595311220E+08 2.684751740000000E+08 2.684776110000000E+08 2.684809240000000E+08 2.684833630000000E+08 2.684866750000000E+08 2.684891150000000E+08 2.684924260000000E+08 2.684948670000000E+08 2.684951310285217E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi0_0_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
211025 19784 0 92229 0 0 99012
Writing events file
19784 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
211025 19784 0 92229 0 0 99012
in 16824. seconds
-> Running cleansis.datafile,s,h,"ae503032010xi0_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 : 19784
cleaning chip # 0
Hot pixels & counts : 6 4278
Flickering pixels iter, pixels & cnts : 1 8 39
cleaning chip # 1
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 2 7
cleaning chip # 2
Hot pixels & counts : 3 1386
Flickering pixels iter, pixels & cnts : 1 1 3
cleaning chip # 3
Hot pixels & counts : 2 1100
Flickering pixels iter, pixels & cnts : 1 3 11
Number of pixels rejected : 25
Number of (internal) image counts : 19784
Number of image cts rejected (N, %) : 6824 34.49
By chip : 0 1 2 3
Pixels rejected : 14 2 4 5
Image counts : 8144 3143 4170 4327
Image cts rejected: 4317 7 1389 1111
Image cts rej (%) : 53.01 0.22 33.31 25.68
Total counts : 8144 3143 4170 4327
Total cts rejected: 4317 7 1389 1111
Total cts rej (%) : 53.01 0.22 33.31 25.68
Number of clean counts accepted : 12960
Number of rejected pixels : 25
-> cleansis successful on ae503032010xi0_0_3x3n066a_cl.evt.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae503032010xi1_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 x6 x
2.684661075318861E+08 2.684694230000000E+08 2.684718595311220E+08 2.684751740000000E+08 2.684776110000000E+08 2.684809240000000E+08 2.684833630000000E+08 2.684866750000000E+08 2.684891150000000E+08 2.684924260000000E+08 2.684948670000000E+08 2.684951390282767E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi1_0_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
436935 117607 0 188692 0 0 130636
Writing events file
117607 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
436935 117607 0 188692 0 0 130636
in 16832. seconds
-> Running cleansis.datafile,s,h,"ae503032010xi1_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 : 117607
Total counts in chip images : 117606
cleaning chip # 0
Hot pixels & counts : 20 12796
Flickering pixels iter, pixels & cnts : 1 302 2256
Flickering pixels iter, pixels & cnts : 2 6 24
cleaning chip # 1
Hot pixels & counts : 16 10200
Flickering pixels iter, pixels & cnts : 1 272 2394
Flickering pixels iter, pixels & cnts : 2 6 30
Flickering pixels iter, pixels & cnts : 3 1 4
cleaning chip # 2
Hot pixels & counts : 16 11777
Flickering pixels iter, pixels & cnts : 1 277 2238
Flickering pixels iter, pixels & cnts : 2 5 16
cleaning chip # 3
Hot pixels & counts : 18 12909
Flickering pixels iter, pixels & cnts : 1 331 2413
Flickering pixels iter, pixels & cnts : 2 4 16
Number of pixels rejected : 1274
Number of (internal) image counts : 117606
Number of image cts rejected (N, %) : 57073 48.53
By chip : 0 1 2 3
Pixels rejected : 328 295 298 353
Image counts : 33596 27429 27542 29039
Image cts rejected: 15076 12628 14031 15338
Image cts rej (%) : 44.87 46.04 50.94 52.82
Total counts : 33596 27430 27542 29039
Total cts rejected: 15076 12628 14031 15338
Total cts rej (%) : 44.87 46.04 50.94 52.82
Number of clean counts accepted : 60534
Number of rejected pixels : 1274
-> cleansis successful on ae503032010xi1_0_3x3n069b_cl.evt.PREFR keyword found in header, using prefr = 0.0 POSTFR keyword found in header, using postfr = 1.0-> Extracting ae503032010xi3_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 x6 x
2.684661075318861E+08 2.684694230000000E+08 2.684718595311220E+08 2.684751740000000E+08 2.684776110000000E+08 2.684809240000000E+08 2.684833630000000E+08 2.684866750000000E+08 2.684891150000000E+08 2.684924260000000E+08 2.684948670000000E+08 2.684951512940670E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi3_0_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
212533 17017 0 87353 0 0 108163
Writing events file
17017 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
212533 17017 0 87353 0 0 108163
in 16832. seconds
-> Running cleansis.datafile,s,h,"ae503032010xi3_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 : 17017
cleaning chip # 0
Hot pixels & counts : 5 2542
Flickering pixels iter, pixels & cnts : 1 3 9
cleaning chip # 1
Hot pixels & counts : 1 1534
Flickering pixels iter, pixels & cnts : 1 4 15
cleaning chip # 2
Hot pixels & counts : 1 864
Flickering pixels iter, pixels & cnts : 1 2 11
cleaning chip # 3
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 1 4
Number of pixels rejected : 17
Number of (internal) image counts : 17017
Number of image cts rejected (N, %) : 4979 29.26
By chip : 0 1 2 3
Pixels rejected : 8 5 3 1
Image counts : 5938 4416 3656 3007
Image cts rejected: 2551 1549 875 4
Image cts rej (%) : 42.96 35.08 23.93 0.13
Total counts : 5938 4416 3656 3007
Total cts rejected: 2551 1549 875 4
Total cts rej (%) : 42.96 35.08 23.93 0.13
Number of clean counts accepted : 12038
Number of rejected pixels : 17
-> cleansis successful on ae503032010xi3_0_3x3n066a_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
2.684652751577078E+08 2.684951310285217E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi0_0_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
211025 4428 0 33 0 0 206564
Writing events file
4428 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
211025 4428 0 33 0 0 206564
in 29850. 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
2.684652831577069E+08 2.684951390282767E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi1_0_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
436935 21949 0 114 0 0 414872
Writing events file
21949 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
436935 21949 0 114 0 0 414872
in 29850. 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
2.684652671577086E+08 2.684951550282750E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi3_0_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
212533 6121 0 51 0 0 206361
Writing events file
6121 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
212533 6121 0 51 0 0 206361
in 29866. 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 x6 x
2.684652751577078E+08 2.684656970000000E+08 2.684708560000000E+08 2.684714500000000E+08 2.684766100000000E+08 2.684772030000000E+08 2.684823630000000E+08 2.684829555296323E+08 2.684881170000000E+08 2.684887080000000E+08 2.684938700000000E+08 2.684944610000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi0_0_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
211025 34817 0 176208 0 0 0
Writing events file
34817 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
211025 34817 0 176208 0 0 0
in 3383.4 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < -5 && DYE_ELV>100 && S0_ADHST_A == 0 && S0_ADHST_B == 0 && S0_ADHST_C == 0 && S0_ADHST_D == 0 && S0_ADHEND_A == 255 && S0_ADHEND_B == 255 && S0_ADHEND_C == 255 && S0_ADHEND_D == 255 && S0_ADVST_A == 0 && S0_ADVST_B == 0 && S0_ADVST_C == 0 && S0_ADVST_D == 0 && S0_ADVEND_A == 1023 && S0_ADVEND_B == 1023 && S0_ADVEND_C == 1023 && S0_ADVEND_D == 1023 && S0_DSC_INOUT_A == 0 && S0_DSC_INOUT_B == 0 && S0_DSC_INOUT_C == 0 && S0_DSC_INOUT_D == 0 && S0_GDSC_OTHERS == 1 && S0_GDSC_TRAIL_SP == 1 && S0_GDSC_LEAD_SP == 1 && S0_GDSC_SINGLE == 1 && S0_EVTHLW_A == 100 && S0_EVTHLW_B == 100 && S0_EVTHLW_C == 100 && S0_EVTHLW_D == 100 && S0_EVTHUP_A == 3583 && S0_EVTHUP_B == 3583 && S0_EVTHUP_C == 3583 && S0_EVTHUP_D == 3583 && S0_AREA_DSC_A == 0 && S0_AREA_DSC_B == 0 && S0_AREA_DSC_C == 0 && S0_AREA_DSC_D == 0 && S0_GRADE_DSC_A == 0 && S0_GRADE_DSC_B == 0 && S0_GRADE_DSC_C == 0 && S0_GRADE_DSC_D == 0-> gti_extractor_3.tmp x x
-> Running extractor.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < 0 && NTE_ELV>0 && S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_3.tmp x6 x
2.684652831577069E+08 2.684656970000000E+08 2.684708560000000E+08 2.684714500000000E+08 2.684766100000000E+08 2.684772030000000E+08 2.684823630000000E+08 2.684829555296323E+08 2.684881170000000E+08 2.684887080000000E+08 2.684938700000000E+08 2.684944610000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi1_0_3x3n069z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
436935 78224 0 358711 0 0 0
Writing events file
78224 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
436935 78224 0 358711 0 0 0
in 3375.4 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < -5 && DYE_ELV>100 && S1_ADHST_A == 0 && S1_ADHST_B == 0 && S1_ADHST_C == 0 && S1_ADHST_D == 0 && S1_ADHEND_A == 255 && S1_ADHEND_B == 255 && S1_ADHEND_C == 255 && S1_ADHEND_D == 255 && S1_ADVST_A == 0 && S1_ADVST_B == 0 && S1_ADVST_C == 0 && S1_ADVST_D == 0 && S1_ADVEND_A == 1023 && S1_ADVEND_B == 1023 && S1_ADVEND_C == 1023 && S1_ADVEND_D == 1023 && S1_DSC_INOUT_A == 0 && S1_DSC_INOUT_B == 0 && S1_DSC_INOUT_C == 0 && S1_DSC_INOUT_D == 0 && S1_GDSC_OTHERS == 1 && S1_GDSC_TRAIL_SP == 1 && S1_GDSC_LEAD_SP == 1 && S1_GDSC_SINGLE == 1 && S1_EVTHLW_A == 20 && S1_EVTHLW_B == 20 && S1_EVTHLW_C == 20 && S1_EVTHLW_D == 20 && S1_EVTHUP_A == 3583 && S1_EVTHUP_B == 3583 && S1_EVTHUP_C == 3583 && S1_EVTHUP_D == 3583 && S1_AREA_DSC_A == 0 && S1_AREA_DSC_B == 0 && S1_AREA_DSC_C == 0 && S1_AREA_DSC_D == 0 && S1_GRADE_DSC_A == 0 && S1_GRADE_DSC_B == 0 && S1_GRADE_DSC_C == 0 && S1_GRADE_DSC_D == 0-> gti_extractor_3.tmp x x
-> Running extractor.
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < 0 && NTE_ELV>0 && S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_3.tmp x6 x
2.684652671577086E+08 2.684656970000000E+08 2.684708560000000E+08 2.684714500000000E+08 2.684766100000000E+08 2.684772030000000E+08 2.684823630000000E+08 2.684829555296323E+08 2.684881170000000E+08 2.684887080000000E+08 2.684938700000000E+08 2.684944610000000E+08-> Running extractor.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi3_0_3x3n066z_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
212533 28344 0 184189 0 0 0
Writing events file
28344 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
212533 28344 0 184189 0 0 0
in 3391.4 seconds
SAA_HXD == 0 && T_SAA_HXD > 436 && ELV < -5 && DYE_ELV>100 && S3_ADHST_A == 0 && S3_ADHST_B == 0 && S3_ADHST_C == 0 && S3_ADHST_D == 0 && S3_ADHEND_A == 255 && S3_ADHEND_B == 255 && S3_ADHEND_C == 255 && S3_ADHEND_D == 255 && S3_ADVST_A == 0 && S3_ADVST_B == 0 && S3_ADVST_C == 0 && S3_ADVST_D == 0 && S3_ADVEND_A == 1023 && S3_ADVEND_B == 1023 && S3_ADVEND_C == 1023 && S3_ADVEND_D == 1023 && S3_DSC_INOUT_A == 0 && S3_DSC_INOUT_B == 0 && S3_DSC_INOUT_C == 0 && S3_DSC_INOUT_D == 0 && S3_GDSC_OTHERS == 1 && S3_GDSC_TRAIL_SP == 1 && S3_GDSC_LEAD_SP == 1 && S3_GDSC_SINGLE == 1 && S3_EVTHLW_A == 100 && S3_EVTHLW_B == 100 && S3_EVTHLW_C == 100 && S3_EVTHLW_D == 100 && S3_EVTHUP_A == 3583 && S3_EVTHUP_B == 3583 && S3_EVTHUP_C == 3583 && S3_EVTHUP_D == 3583 && S3_AREA_DSC_A == 0 && S3_AREA_DSC_B == 0 && S3_AREA_DSC_C == 0 && S3_AREA_DSC_D == 0 && S3_GRADE_DSC_A == 0 && S3_GRADE_DSC_B == 0 && S3_GRADE_DSC_C == 0 && S3_GRADE_DSC_D == 0-> gti_extractor_3.tmp x x
-> Running extractor.
DET_TYPE=0:0-> Using screening criteria:
SAA_HXD == 0 && T_SAA_HXD > 500 && TN_SAA_HXD > 180 && ELV > 5 && ANG_DIST < 1.5 && HXD_DTRATE < 3 && AOCU_HK_CNT3_NML_P==1 && COR > 6 && HXD_HV_W0_CAL>700 && HXD_HV_W1_CAL>700 && HXD_HV_W2_CAL>700 && HXD_HV_W3_CAL>700 && HXD_HV_T0_CAL>700 && HXD_HV_T1_CAL>700 && HXD_HV_T2_CAL>700 && HXD_HV_T3_CAL>700 && HXD_WPU_CLK_RATE == 0-> gti_extractor_4.tmp x x
-> ae503032010hxd_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
-> ae503032010hxd_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 x10 x
2.684658020000000E+08 2.684694230000000E+08 2.684715550000000E+08 2.684738530000000E+08 2.684743720000000E+08 2.684751740000000E+08 2.684773070000000E+08 2.684795250000000E+08 2.684803490000000E+08 2.684809240000000E+08 2.684830595298653E+08 2.684852630000000E+08 2.684862390000000E+08 2.684866750000000E+08 2.684889900000000E+08 2.684910850000000E+08 2.684920640000000E+08 2.684924260000000E+08 2.684949635282949E+08 2.684951512940670E+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: ae503032010hxd_0_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
4721992 582763 0 2530900 0 0 1608329
Writing events file
582763 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
4721992 582763 0 2530900 0 0 1608329
in 14798. 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
-> ae503032010hxd_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
-> ae503032010hxd_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 x10 x
2.684658020000000E+08 2.684694230000000E+08 2.684715550000000E+08 2.684738530000000E+08 2.684743720000000E+08 2.684751740000000E+08 2.684773070000000E+08 2.684795250000000E+08 2.684803490000000E+08 2.684809240000000E+08 2.684830595298653E+08 2.684852630000000E+08 2.684862390000000E+08 2.684866750000000E+08 2.684889900000000E+08 2.684910850000000E+08 2.684920640000000E+08 2.684924260000000E+08 2.684949635282949E+08 2.684951512940670E+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: ae503032010hxd_0_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
4721992 7515 0 2530900 0 0 2183577
Writing events file
7515 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
4721992 7515 0 2530900 0 0 2183577
in 14798. 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 x10 x
2.684658020000000E+08 2.684694230000000E+08 2.684715550000000E+08 2.684738530000000E+08 2.684743720000000E+08 2.684751740000000E+08 2.684773070000000E+08 2.684795250000000E+08 2.684803490000000E+08 2.684809240000000E+08 2.684830595298653E+08 2.684852630000000E+08 2.684862390000000E+08 2.684866750000000E+08 2.684889900000000E+08 2.684910850000000E+08 2.684920640000000E+08 2.684924260000000E+08 2.684949635282949E+08 2.684951512940670E+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: ae503032010hxd_0_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
4721992 55337 0 2530900 0 0 2135755
Writing events file
55337 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
4721992 55337 0 2530900 0 0 2135755
in 14798. 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 x6 x
2.684651460000000E+08 2.684656970000000E+08 2.684695280000000E+08 2.684714500000000E+08 2.684752790000000E+08 2.684772030000000E+08 2.684810290000000E+08 2.684829555296323E+08 2.684867790000000E+08 2.684887080000000E+08 2.684925290000000E+08 2.684944610000000E+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: ae503032010hxd_0_wel_uf.evt
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Total Good Bad: Region Time Phase Grade Cut
4721992 1578542 0 3143450 0 0 0
Writing events file
1578542 events written to the output file
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
4721992 1578542 0 3143450 0 0 0
in 10063. 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: ae503032010hxd_0_pinno_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
7515 7515 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
7515 7515 0 0 0 0 0
in 14798. seconds
Spectrum has 7515 counts for 0.5078 counts/sec
... written the PHA data Extension
-> Grouping ae503032010hxd_0_pinno_sr.pi.infile,s,h,"ae503032010hxd_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 - 14798. Integration time (in secs) of PHA data AREASCAL - 1.0000 Area scaling factor BACKSCAL - 1.0000 Background scaling factor BACKFILE - none Associated background file CORRSCAL - 1.0000 Correlation scaling factor CORRFILE - none Associated correlation file RESPFILE - none Associated redistribution matrix file ANCRFILE - none Associated ancillary response file POISSERR - TRUE Whether Poissonian errors apply CHANTYPE - PI_PIN Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 256 No. of legal detector channels NCHAN - 256 No. of detector channels in dataset PHAVERSN - 1.2.0 OGIP FITS version number STAT_ERR - FALSE Statistical Error SYS_ERR - FALSE Fractional Systematic Error QUALITY - TRUE Quality Flag GROUPING - FALSE Grouping Flag -------------------------------------------------------------------- -------------------------------------------------------------------- WARNING - chk_com 1.3.0: string length exceeds 68 characters ! WARNING - chk_com 1.3.0: using fitsio continuation convention ... ... -------- ... GROUPING ... -------- ... --------------------------------------------- ... Channel Grouping (Channel-Channel) : ... 0 - 28 are grouped by a factor 29 ... 29 - 78 are single channels ... 79 - 80 are grouped by a factor 2 ... 81 - 85 are single channels ... 86 - 93 are grouped by a factor 2 ... 94 - 94 are single channels ... 95 - 112 are grouped by a factor 2 ... 113 - 115 are grouped by a factor 3 ... 116 - 123 are grouped by a factor 2 ... 124 - 147 are grouped by a factor 3 ... 148 - 149 are grouped by a factor 2 ... 150 - 158 are grouped by a factor 3 ... 159 - 162 are grouped by a factor 4 ... 163 - 168 are grouped by a factor 3 ... 169 - 170 are grouped by a factor 2 ... 171 - 191 are grouped by a factor 3 ... 192 - 199 are grouped by a factor 4 ... 200 - 202 are grouped by a factor 3 ... 203 - 255 are single channels ... --------------------------------------------- ... QUALITY ... ... ------- ... QUALITY ... ------- ... Bad Channels (Channel - Channel) ... --------------------------------------------- ... 203 - 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 ae503032010hxd_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,"ae503032010hxd_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 = ae503032010hxd_0_wel_uf.evt hxddtcor: spec = ae503032010hxd_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 ae503032010hxd_0_pinno_sr.pi ========================== hxddtcor: current exposure = 14798.24 hxddtcor: make pseudo list ae503032010hxd_0_wel_uf.evt (13834.25 sec) EXPOSURE 13834.250000 / Exposure time hxddtcor: ------ /aps/tools/headas/hea_v6_4_1_sz_v8_0/i686-pc-linux-gnu-libc2.3.4/bin/hxddtcor version 1.50------ hxddtcor: event file[0]= ae503032010hxd_0_wel_uf.evt hxddtcor: save pseudo = no hxddtcor: EXPOSURE changed from 14798.24 to 13834.25 hxddtcor: Live time is 93.5 %. Checksum keywords updated successfully. hxddtcor: process done.-> hxddtcor successful for ae503032010hxd_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 ae503032010hxd_0_pinno_sr.pi;
Warning: RMF CHANTYPE keyword is not consistent with spectrum
1 spectrum in use
Spectral Data File: ae503032010hxd_0_pinno_sr.pi Spectrum 1
Net count rate (cts/s) for Spectrum:1 5.432e-01 +/- 6.266e-03
Assigned to Data Group 1 and Plot Group 1
Noticed Channels: 1-155
Telescope: SUZAKU Instrument: HXD Channel Type: PI
Exposure Time: 1.383e+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: 53 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 ae503032010hxd_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 VELA JR P20 (Sequence 503032010);
!XSPEC12>setplot com label file Exposure time: 13.8ks;
!XSPEC12>setplot com time off;
!XSPEC12>plot;
!XSPEC12>exit;
XSPEC: quit
!XSPEC12>tclexit
-> Created ae503032010hxd_0_wel_pi.gif.Input sky coordinates: 1.3360200000000E+02, -4.6326000000000E+01 Output pixel coordinates: 8.0547268121080E+02, 7.7264146056822E+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,"ae503032010xi0_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,133.617543148208,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,136.32715258739,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,103.000349776589,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"133.6175",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"-46.3272",,,"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,"268465264.000000",,,"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,133.602001420244,,,"R.A. (J2000) in deg" deltaJ2000,r,a,-46.3260004459417,,,"DEC. (J2000) in deg" alphaB1950,r,a,133.172655444617,,,"R.A. (B1950) in deg" deltaB1950,r,a,-46.1347243976261,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00695813524225741,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00184122596750314,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,18.5246591720172,,,"angular difference in arcsec by aberration" l,r,a,266.520060497167,,,"Galactic longitude (deg)" b,r,a,-0.896147631224649,,,"Galactic latitude (deg)" x,r,a,805.47,,,"X value of SKY coorindates (pixel)" y,r,a,772.64,,,"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,805.464865990823,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,772.639425079818,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,786.122746974134,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.178013493077,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,146.122746974134,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.178013493077,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.398425277475821,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-39.7909681401,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,7,,,"PIXEL number of XRS" hxd_skyx,r,a,805.469987163187,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,772.639998562468,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,786.125188458024,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.180047008824,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,987.622188458024,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.180047008824,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.81461125762876,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.83279184486596,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,805.469999999988,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,772.639999999968,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,786.125194577881,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.180052106063,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,526.625194577881,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.680052106063,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,497,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,1,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,14,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,16,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.05866979407152,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-162.645593657012,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,805.469999999988,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,772.639999999968,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,786.125194577881,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.180052106063,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,526.625194577881,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.680052106063,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,526,,,"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,526,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,526,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,0.912538223563339,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-113.769042464942,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,805.469999999988,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,772.639999999968,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,786.125194577881,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.180052106063,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,529.625194577881,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.680052106063,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,494,,,"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,494,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,494,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.870663581297487,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-0.205808306334113,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,805.469999999988,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,772.639999999968,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,786.125194577881,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.180052106063,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,518.625194577881,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.680052106063,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,505,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,1,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,6,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,8,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.949375590146739,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,23.7579978833495,,,"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 805.470 (pixel)
Y 772.640 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae503032010xi0_0_3x3n066a_cl.evt+1'
EA1 133.617543148208 (deg)
EA2 136.327152587390 (deg)
EA3 103.000349776589 (deg)
REF_ALPHA 133.6175 (deg) / 8h54m28.2s
REF_DELTA -46.3272 (deg) / -46d19m38s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268465264.000 / 2008-07-04T05:41:03 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 ( 133.6020 , -46.3260 ) [deg] / ( 8h54m24.5s , -46d19m34s )
B1950 ( 133.1727 , -46.1347 ) [deg] / ( 8h52m41.4s , -46d08m05s )
Galactic ( 266.5201 , -0.8961 ) [deg]
Aberration ( -25.0493 , -6.6284 ) [arcsec], Ang.Distance = 18.5247
XRS SKY ( 805.4649 , 772.6394 ) [pixel]
XRS FOC ( 786.1227 , 783.1780 ) [pixel]
XRS DET ( 146.1227 , 143.1780 ) [pixel]
XRS THETA/PHI 0.3984 [arcmin] / -39.7910 [deg]
XRS PIXEL = 7
HXD SKY ( 805.4700 , 772.6400 ) [pixel]
HXD FOC ( 786.1252 , 783.1800 ) [pixel]
HXD DET ( 987.6222 , 783.1800 ) [pixel]
HXD THETA/PHI 3.8146 [arcmin] / -3.8328 [deg]
XIS0 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS0 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS0 DET ( 526.6252 , 515.6801 ) [pixel]
XIS0 ACT ( 497 , 515 ) [pixel]
XIS0 RAW ( 14 , 515 ) [pixel] at SEGMENT = 1
XIS0 PPU ( 16 , 515 ) [pixel]
XIS0 THETA/PHI 1.0587 [arcmin] / -162.6456 [deg]
XIS1 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS1 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS1 DET ( 526.6252 , 520.6801 ) [pixel]
XIS1 ACT ( 520 , 526 ) [pixel]
XIS1 RAW ( 8 , 526 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 526 ) [pixel]
XIS1 THETA/PHI 0.9125 [arcmin] / -113.7690 [deg]
XIS2 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS2 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS2 DET ( 529.6252 , 509.6801 ) [pixel]
XIS2 ACT ( 514 , 494 ) [pixel]
XIS2 RAW ( 2 , 494 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 494 ) [pixel]
XIS2 THETA/PHI 0.8707 [arcmin] / -0.2058 [deg]
XIS3 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS3 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS3 DET ( 518.6252 , 523.6801 ) [pixel]
XIS3 ACT ( 505 , 523 ) [pixel]
XIS3 RAW ( 6 , 523 ) [pixel] at SEGMENT = 1
XIS3 PPU ( 8 , 523 ) [pixel]
XIS3 THETA/PHI 0.9494 [arcmin] / 23.7580 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae503032010xi0_0_3x3n066a_cl.evt_source.reg.tmp circle(805,772,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi0_0_3x3n066a_cl.evt
10% completed
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100% completed
Total Good Bad: Region Time Phase Grade Cut
12960 2161 10799 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
12960 2161 10799 0 0 0 0
in 16824. seconds
Spectrum has 2161 counts for 0.1284 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi0_0_3x3n066a_cl.evt
10% completed
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Total Good Bad: Region Time Phase Grade Cut
12960 3679 9281 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
12960 3679 9281 0 0 0 0
in 16824. seconds
Spectrum has 3679 counts for 0.2187 counts/sec
... written the PHA data Extension
-> Creating RMF for ae503032010xi0_0_3x3n066a_sr.piinfile,s,h,"ae503032010xi0_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 ae503032010xi0_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 - 16824. Integration time (in secs) of PHA data AREASCAL - 1.0000 Area scaling factor BACKSCAL - 8.28743E-02 Background scaling factor BACKFILE - none Associated background file CORRSCAL - 1.0000 Correlation scaling factor CORRFILE - none Associated correlation file RESPFILE - none Associated redistribution matrix file ANCRFILE - none Associated ancillary response file POISSERR - TRUE Whether Poissonian errors apply CHANTYPE - PI Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 4096 No. of legal detector channels NCHAN - 4096 No. of detector channels in dataset PHAVERSN - 1.2.0 OGIP FITS version number STAT_ERR - FALSE Statistical Error SYS_ERR - FALSE Fractional Systematic Error QUALITY - TRUE Quality Flag GROUPING - FALSE Grouping Flag -------------------------------------------------------------------- -------------------------------------------------------------------- WARNING - chk_com 1.3.0: string length exceeds 68 characters ! WARNING - chk_com 1.3.0: using fitsio continuation convention WARNING - chk_com 1.3.0: string length exceeds 68 characters ! WARNING - chk_com 1.3.0: using fitsio continuation convention ... ... -------- ... GROUPING ... -------- ... --------------------------------------------- ... Channel Grouping (Channel-Channel) : ... 0 - 121 are grouped by a factor 122 ... 122 - 130 are grouped by a factor 9 ... 131 - 146 are grouped by a factor 8 ... 147 - 158 are grouped by a factor 6 ... 159 - 168 are grouped by a factor 5 ... 169 - 174 are grouped by a factor 6 ... 175 - 186 are grouped by a factor 3 ... 187 - 188 are grouped by a factor 2 ... 189 - 193 are grouped by a factor 5 ... 194 - 197 are grouped by a factor 4 ... 198 - 202 are grouped by a factor 5 ... 203 - 209 are grouped by a factor 7 ... 210 - 214 are grouped by a factor 5 ... 215 - 220 are grouped by a factor 6 ... 221 - 232 are grouped by a factor 4 ... 233 - 238 are grouped by a factor 6 ... 239 - 243 are grouped by a factor 5 ... 244 - 247 are grouped by a factor 4 ... 248 - 256 are grouped by a factor 3 ... 257 - 258 are grouped by a factor 2 ... 259 - 261 are grouped by a factor 3 ... 262 - 265 are grouped by a factor 4 ... 266 - 270 are grouped by a factor 5 ... 271 - 277 are grouped by a factor 7 ... 278 - 282 are grouped by a factor 5 ... 283 - 294 are grouped by a factor 6 ... 295 - 301 are grouped by a factor 7 ... 302 - 311 are grouped by a factor 10 ... 312 - 322 are grouped by a factor 11 ... 323 - 335 are grouped by a factor 13 ... 336 - 345 are grouped by a factor 10 ... 346 - 362 are grouped by a factor 17 ... 363 - 376 are grouped by a factor 7 ... 377 - 391 are grouped by a factor 15 ... 392 - 405 are grouped by a factor 14 ... 406 - 418 are grouped by a factor 13 ... 419 - 430 are grouped by a factor 12 ... 431 - 443 are grouped by a factor 13 ... 444 - 464 are grouped by a factor 21 ... 465 - 479 are grouped by a factor 15 ... 480 - 501 are grouped by a factor 22 ... 502 - 530 are grouped by a factor 29 ... 531 - 574 are grouped by a factor 44 ... 575 - 600 are grouped by a factor 26 ... 601 - 642 are grouped by a factor 42 ... 643 - 692 are grouped by a factor 50 ... 693 - 769 are grouped by a factor 77 ... 770 - 837 are grouped by a factor 68 ... 838 - 904 are grouped by a factor 67 ... 905 - 976 are grouped by a factor 72 ... 977 - 1052 are grouped by a factor 76 ... 1053 - 1139 are grouped by a factor 87 ... 1140 - 1251 are grouped by a factor 112 ... 1252 - 1394 are grouped by a factor 143 ... 1395 - 1519 are grouped by a factor 125 ... 1520 - 1634 are grouped by a factor 115 ... 1635 - 1765 are grouped by a factor 131 ... 1766 - 1908 are grouped by a factor 143 ... 1909 - 2030 are grouped by a factor 122 ... 2031 - 2086 are grouped by a factor 56 ... 2087 - 2267 are grouped by a factor 181 ... 2268 - 2536 are grouped by a factor 269 ... 2537 - 2725 are grouped by a factor 189 ... 2726 - 3111 are grouped by a factor 386 ... 3112 - 3317 are grouped by a factor 206 ... 3318 - 3671 are grouped by a factor 354 ... 3672 - 4095 are grouped by a factor 424 ... --------------------------------------------- ... 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 ae503032010xi0_0_3x3n066a_sr.pi.
Input sky coordinates: 1.3360200000000E+02, -4.6326000000000E+01 Output pixel coordinates: 8.0547268121080E+02, 7.7264146056822E+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,"ae503032010xi1_0_3x3n069b_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,133.617543148208,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,136.32715258739,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,103.000349776589,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"133.6175",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"-46.3272",,,"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,"268465264.000000",,,"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,133.602001420244,,,"R.A. (J2000) in deg" deltaJ2000,r,a,-46.3260004459417,,,"DEC. (J2000) in deg" alphaB1950,r,a,133.172655444617,,,"R.A. (B1950) in deg" deltaB1950,r,a,-46.1347243976261,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00695813524225741,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00184122596750314,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,18.5246591720172,,,"angular difference in arcsec by aberration" l,r,a,266.520060497167,,,"Galactic longitude (deg)" b,r,a,-0.896147631224649,,,"Galactic latitude (deg)" x,r,a,805.47,,,"X value of SKY coorindates (pixel)" y,r,a,772.64,,,"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,805.464865990823,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,772.639425079818,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,786.122746974134,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.178013493077,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,146.122746974134,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.178013493077,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.398425277475821,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-39.7909681401,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,7,,,"PIXEL number of XRS" hxd_skyx,r,a,805.469987163187,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,772.639998562468,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,786.125188458024,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.180047008824,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,987.622188458024,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.180047008824,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.81461125762876,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.83279184486596,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,805.469999999988,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,772.639999999968,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,786.125194577881,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.180052106063,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,526.625194577881,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.680052106063,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,497,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,1,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,14,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,16,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.05866979407152,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-162.645593657012,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,805.469999999988,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,772.639999999968,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,786.125194577881,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.180052106063,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,526.625194577881,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.680052106063,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,526,,,"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,526,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,526,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,0.912538223563339,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-113.769042464942,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,805.469999999988,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,772.639999999968,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,786.125194577881,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.180052106063,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,529.625194577881,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.680052106063,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,494,,,"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,494,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,494,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.870663581297487,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-0.205808306334113,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,805.469999999988,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,772.639999999968,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,786.125194577881,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.180052106063,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,518.625194577881,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.680052106063,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,505,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,1,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,6,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,8,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.949375590146739,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,23.7579978833495,,,"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 805.470 (pixel)
Y 772.640 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae503032010xi1_0_3x3n069b_cl.evt+1'
EA1 133.617543148208 (deg)
EA2 136.327152587390 (deg)
EA3 103.000349776589 (deg)
REF_ALPHA 133.6175 (deg) / 8h54m28.2s
REF_DELTA -46.3272 (deg) / -46d19m38s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268465264.000 / 2008-07-04T05:41:03 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 ( 133.6020 , -46.3260 ) [deg] / ( 8h54m24.5s , -46d19m34s )
B1950 ( 133.1727 , -46.1347 ) [deg] / ( 8h52m41.4s , -46d08m05s )
Galactic ( 266.5201 , -0.8961 ) [deg]
Aberration ( -25.0493 , -6.6284 ) [arcsec], Ang.Distance = 18.5247
XRS SKY ( 805.4649 , 772.6394 ) [pixel]
XRS FOC ( 786.1227 , 783.1780 ) [pixel]
XRS DET ( 146.1227 , 143.1780 ) [pixel]
XRS THETA/PHI 0.3984 [arcmin] / -39.7910 [deg]
XRS PIXEL = 7
HXD SKY ( 805.4700 , 772.6400 ) [pixel]
HXD FOC ( 786.1252 , 783.1800 ) [pixel]
HXD DET ( 987.6222 , 783.1800 ) [pixel]
HXD THETA/PHI 3.8146 [arcmin] / -3.8328 [deg]
XIS0 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS0 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS0 DET ( 526.6252 , 515.6801 ) [pixel]
XIS0 ACT ( 497 , 515 ) [pixel]
XIS0 RAW ( 14 , 515 ) [pixel] at SEGMENT = 1
XIS0 PPU ( 16 , 515 ) [pixel]
XIS0 THETA/PHI 1.0587 [arcmin] / -162.6456 [deg]
XIS1 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS1 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS1 DET ( 526.6252 , 520.6801 ) [pixel]
XIS1 ACT ( 520 , 526 ) [pixel]
XIS1 RAW ( 8 , 526 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 526 ) [pixel]
XIS1 THETA/PHI 0.9125 [arcmin] / -113.7690 [deg]
XIS2 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS2 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS2 DET ( 529.6252 , 509.6801 ) [pixel]
XIS2 ACT ( 514 , 494 ) [pixel]
XIS2 RAW ( 2 , 494 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 494 ) [pixel]
XIS2 THETA/PHI 0.8707 [arcmin] / -0.2058 [deg]
XIS3 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS3 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS3 DET ( 518.6252 , 523.6801 ) [pixel]
XIS3 ACT ( 505 , 523 ) [pixel]
XIS3 RAW ( 6 , 523 ) [pixel] at SEGMENT = 1
XIS3 PPU ( 8 , 523 ) [pixel]
XIS3 THETA/PHI 0.9494 [arcmin] / 23.7580 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae503032010xi1_0_3x3n069b_cl.evt_source.reg.tmp circle(805,772,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi1_0_3x3n069b_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
60534 10345 50189 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
60534 10345 50189 0 0 0 0
in 16832. seconds
Spectrum has 10345 counts for 0.6146 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi1_0_3x3n069b_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
60534 17103 43431 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
60534 17103 43431 0 0 0 0
in 16832. seconds
Spectrum has 17102 counts for 1.016 counts/sec
... written the PHA data Extension
-> Creating RMF for ae503032010xi1_0_3x3n069b_sr.piinfile,s,h,"ae503032010xi1_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 ae503032010xi1_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 - 16832. 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 - 39 are single channels ... 40 - 41 are grouped by a factor 2 ... 42 - 43 are single channels ... 44 - 45 are grouped by a factor 2 ... 46 - 47 are single channels ... 48 - 49 are grouped by a factor 2 ... 50 - 77 are single channels ... 78 - 83 are grouped by a factor 2 ... 84 - 89 are grouped by a factor 3 ... 90 - 93 are grouped by a factor 4 ... 94 - 99 are grouped by a factor 3 ... 100 - 103 are grouped by a factor 2 ... 104 - 118 are grouped by a factor 3 ... 119 - 120 are grouped by a factor 2 ... 121 - 123 are grouped by a factor 3 ... 124 - 127 are grouped by a factor 4 ... 128 - 130 are grouped by a factor 3 ... 131 - 138 are grouped by a factor 2 ... 139 - 141 are grouped by a factor 3 ... 142 - 143 are grouped by a factor 2 ... 144 - 163 are single channels ... 164 - 167 are grouped by a factor 2 ... 168 - 172 are single channels ... 173 - 174 are grouped by a factor 2 ... 175 - 189 are single channels ... 190 - 195 are grouped by a factor 2 ... 196 - 198 are grouped by a factor 3 ... 199 - 204 are grouped by a factor 2 ... 205 - 207 are grouped by a factor 3 ... 208 - 227 are grouped by a factor 2 ... 228 - 230 are grouped by a factor 3 ... 231 - 236 are grouped by a factor 2 ... 237 - 239 are grouped by a factor 3 ... 240 - 251 are grouped by a factor 2 ... 252 - 253 are single channels ... 254 - 263 are grouped by a factor 2 ... 264 - 269 are grouped by a factor 3 ... 270 - 277 are grouped by a factor 4 ... 278 - 280 are grouped by a factor 3 ... 281 - 284 are grouped by a factor 4 ... 285 - 287 are grouped by a factor 3 ... 288 - 291 are grouped by a factor 4 ... 292 - 294 are grouped by a factor 3 ... 295 - 298 are grouped by a factor 4 ... 299 - 303 are grouped by a factor 5 ... 304 - 311 are grouped by a factor 8 ... 312 - 318 are grouped by a factor 7 ... 319 - 334 are grouped by a factor 8 ... 335 - 341 are grouped by a factor 7 ... 342 - 354 are grouped by a factor 13 ... 355 - 361 are grouped by a factor 7 ... 362 - 367 are grouped by a factor 6 ... 368 - 399 are grouped by a factor 8 ... 400 - 408 are grouped by a factor 9 ... 409 - 416 are grouped by a factor 8 ... 417 - 427 are grouped by a factor 11 ... 428 - 437 are grouped by a factor 10 ... 438 - 473 are grouped by a factor 18 ... 474 - 486 are grouped by a factor 13 ... 487 - 503 are grouped by a factor 17 ... 504 - 515 are grouped by a factor 12 ... 516 - 533 are grouped by a factor 18 ... 534 - 548 are grouped by a factor 15 ... 549 - 568 are grouped by a factor 20 ... 569 - 590 are grouped by a factor 22 ... 591 - 616 are grouped by a factor 26 ... 617 - 666 are grouped by a factor 50 ... 667 - 707 are grouped by a factor 41 ... 708 - 744 are grouped by a factor 37 ... 745 - 782 are grouped by a factor 38 ... 783 - 827 are grouped by a factor 45 ... 828 - 862 are grouped by a factor 35 ... 863 - 907 are grouped by a factor 45 ... 908 - 955 are grouped by a factor 48 ... 956 - 1014 are grouped by a factor 59 ... 1015 - 1075 are grouped by a factor 61 ... 1076 - 1145 are grouped by a factor 70 ... 1146 - 1210 are grouped by a factor 65 ... 1211 - 1293 are grouped by a factor 83 ... 1294 - 1378 are grouped by a factor 85 ... 1379 - 1497 are grouped by a factor 119 ... 1498 - 1585 are grouped by a factor 88 ... 1586 - 1682 are grouped by a factor 97 ... 1683 - 1782 are grouped by a factor 100 ... 1783 - 1877 are grouped by a factor 95 ... 1878 - 1964 are grouped by a factor 87 ... 1965 - 2035 are grouped by a factor 71 ... 2036 - 2089 are grouped by a factor 54 ... 2090 - 2150 are grouped by a factor 61 ... 2151 - 2207 are grouped by a factor 57 ... 2208 - 2261 are grouped by a factor 54 ... 2262 - 2311 are grouped by a factor 50 ... 2312 - 2364 are grouped by a factor 53 ... 2365 - 2425 are grouped by a factor 61 ... 2426 - 2476 are grouped by a factor 51 ... 2477 - 2508 are grouped by a factor 32 ... 2509 - 2545 are grouped by a factor 37 ... 2546 - 2573 are grouped by a factor 28 ... 2574 - 2606 are grouped by a factor 33 ... 2607 - 2626 are grouped by a factor 20 ... 2627 - 2659 are grouped by a factor 33 ... 2660 - 2685 are grouped by a factor 26 ... 2686 - 2701 are grouped by a factor 16 ... 2702 - 2728 are grouped by a factor 27 ... 2729 - 2744 are grouped by a factor 16 ... 2745 - 2769 are grouped by a factor 25 ... 2770 - 2790 are grouped by a factor 21 ... 2791 - 2813 are grouped by a factor 23 ... 2814 - 2842 are grouped by a factor 29 ... 2843 - 2863 are grouped by a factor 21 ... 2864 - 2886 are grouped by a factor 23 ... 2887 - 2910 are grouped by a factor 24 ... 2911 - 2933 are grouped by a factor 23 ... 2934 - 2954 are grouped by a factor 21 ... 2955 - 2977 are grouped by a factor 23 ... 2978 - 2997 are grouped by a factor 20 ... 2998 - 3014 are grouped by a factor 17 ... 3015 - 3036 are grouped by a factor 22 ... 3037 - 3060 are grouped by a factor 24 ... 3061 - 3080 are grouped by a factor 20 ... 3081 - 3097 are grouped by a factor 17 ... 3098 - 3116 are grouped by a factor 19 ... 3117 - 3138 are grouped by a factor 22 ... 3139 - 3157 are grouped by a factor 19 ... 3158 - 3180 are grouped by a factor 23 ... 3181 - 3204 are grouped by a factor 24 ... 3205 - 3220 are grouped by a factor 16 ... 3221 - 3244 are grouped by a factor 24 ... 3245 - 3263 are grouped by a factor 19 ... 3264 - 3284 are grouped by a factor 21 ... 3285 - 3307 are grouped by a factor 23 ... 3308 - 3334 are grouped by a factor 27 ... 3335 - 3360 are grouped by a factor 26 ... 3361 - 3381 are grouped by a factor 21 ... 3382 - 3419 are grouped by a factor 19 ... 3420 - 3436 are grouped by a factor 17 ... 3437 - 3461 are grouped by a factor 25 ... 3462 - 3482 are grouped by a factor 21 ... 3483 - 3504 are grouped by a factor 22 ... 3505 - 3517 are grouped by a factor 13 ... 3518 - 3531 are grouped by a factor 14 ... 3532 - 3550 are grouped by a factor 19 ... 3551 - 3568 are grouped by a factor 18 ... 3569 - 3592 are grouped by a factor 24 ... 3593 - 3620 are grouped by a factor 28 ... 3621 - 3651 are grouped by a factor 31 ... 3652 - 3671 are grouped by a factor 20 ... 3672 - 3690 are grouped by a factor 19 ... 3691 - 3717 are grouped by a factor 27 ... 3718 - 3736 are grouped by a factor 19 ... 3737 - 3762 are grouped by a factor 26 ... 3763 - 3785 are grouped by a factor 23 ... 3786 - 3809 are grouped by a factor 24 ... 3810 - 3841 are grouped by a factor 32 ... 3842 - 3868 are grouped by a factor 27 ... 3869 - 3888 are grouped by a factor 20 ... 3889 - 3910 are grouped by a factor 22 ... 3911 - 3937 are grouped by a factor 27 ... 3938 - 3968 are grouped by a factor 31 ... 3969 - 4000 are grouped by a factor 32 ... 4001 - 4024 are grouped by a factor 24 ... 4025 - 4051 are grouped by a factor 27 ... 4052 - 4080 are grouped by a factor 29 ... 4081 - 4095 are grouped by a factor 15 ... --------------------------------------------- ... 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 ae503032010xi1_0_3x3n069b_sr.pi.
Input sky coordinates: 1.3360200000000E+02, -4.6326000000000E+01 Output pixel coordinates: 8.0547268121080E+02, 7.7264146056822E+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,"ae503032010xi3_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,133.617543148208,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,136.32715258739,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,103.000349776589,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"133.6175",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"-46.3272",,,"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,"268465264.000000",,,"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,133.602001420244,,,"R.A. (J2000) in deg" deltaJ2000,r,a,-46.3260004459417,,,"DEC. (J2000) in deg" alphaB1950,r,a,133.172655444617,,,"R.A. (B1950) in deg" deltaB1950,r,a,-46.1347243976261,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00695813524225741,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00184122596750314,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,18.5246591720172,,,"angular difference in arcsec by aberration" l,r,a,266.520060497167,,,"Galactic longitude (deg)" b,r,a,-0.896147631224649,,,"Galactic latitude (deg)" x,r,a,805.47,,,"X value of SKY coorindates (pixel)" y,r,a,772.64,,,"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,805.464865990823,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,772.639425079818,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,786.122746974134,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.178013493077,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,146.122746974134,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.178013493077,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.398425277475821,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-39.7909681401,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,7,,,"PIXEL number of XRS" hxd_skyx,r,a,805.469987163187,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,772.639998562468,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,786.125188458024,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.180047008824,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,987.622188458024,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.180047008824,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.81461125762876,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.83279184486596,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,805.469999999988,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,772.639999999968,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,786.125194577881,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.180052106063,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,526.625194577881,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.680052106063,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,497,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,1,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,14,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,16,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.05866979407152,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-162.645593657012,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,805.469999999988,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,772.639999999968,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,786.125194577881,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.180052106063,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,526.625194577881,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.680052106063,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,526,,,"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,526,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,526,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,0.912538223563339,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-113.769042464942,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,805.469999999988,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,772.639999999968,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,786.125194577881,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.180052106063,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,529.625194577881,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.680052106063,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,494,,,"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,494,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,494,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.870663581297487,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-0.205808306334113,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,805.469999999988,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,772.639999999968,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,786.125194577881,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.180052106063,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,518.625194577881,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.680052106063,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,505,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,1,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,6,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,8,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.949375590146739,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,23.7579978833495,,,"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 805.470 (pixel)
Y 772.640 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae503032010xi3_0_3x3n066a_cl.evt+1'
EA1 133.617543148208 (deg)
EA2 136.327152587390 (deg)
EA3 103.000349776589 (deg)
REF_ALPHA 133.6175 (deg) / 8h54m28.2s
REF_DELTA -46.3272 (deg) / -46d19m38s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268465264.000 / 2008-07-04T05:41:03 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 ( 133.6020 , -46.3260 ) [deg] / ( 8h54m24.5s , -46d19m34s )
B1950 ( 133.1727 , -46.1347 ) [deg] / ( 8h52m41.4s , -46d08m05s )
Galactic ( 266.5201 , -0.8961 ) [deg]
Aberration ( -25.0493 , -6.6284 ) [arcsec], Ang.Distance = 18.5247
XRS SKY ( 805.4649 , 772.6394 ) [pixel]
XRS FOC ( 786.1227 , 783.1780 ) [pixel]
XRS DET ( 146.1227 , 143.1780 ) [pixel]
XRS THETA/PHI 0.3984 [arcmin] / -39.7910 [deg]
XRS PIXEL = 7
HXD SKY ( 805.4700 , 772.6400 ) [pixel]
HXD FOC ( 786.1252 , 783.1800 ) [pixel]
HXD DET ( 987.6222 , 783.1800 ) [pixel]
HXD THETA/PHI 3.8146 [arcmin] / -3.8328 [deg]
XIS0 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS0 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS0 DET ( 526.6252 , 515.6801 ) [pixel]
XIS0 ACT ( 497 , 515 ) [pixel]
XIS0 RAW ( 14 , 515 ) [pixel] at SEGMENT = 1
XIS0 PPU ( 16 , 515 ) [pixel]
XIS0 THETA/PHI 1.0587 [arcmin] / -162.6456 [deg]
XIS1 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS1 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS1 DET ( 526.6252 , 520.6801 ) [pixel]
XIS1 ACT ( 520 , 526 ) [pixel]
XIS1 RAW ( 8 , 526 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 526 ) [pixel]
XIS1 THETA/PHI 0.9125 [arcmin] / -113.7690 [deg]
XIS2 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS2 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS2 DET ( 529.6252 , 509.6801 ) [pixel]
XIS2 ACT ( 514 , 494 ) [pixel]
XIS2 RAW ( 2 , 494 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 494 ) [pixel]
XIS2 THETA/PHI 0.8707 [arcmin] / -0.2058 [deg]
XIS3 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS3 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS3 DET ( 518.6252 , 523.6801 ) [pixel]
XIS3 ACT ( 505 , 523 ) [pixel]
XIS3 RAW ( 6 , 523 ) [pixel] at SEGMENT = 1
XIS3 PPU ( 8 , 523 ) [pixel]
XIS3 THETA/PHI 0.9494 [arcmin] / 23.7580 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae503032010xi3_0_3x3n066a_cl.evt_source.reg.tmp circle(805,772,249.47)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi3_0_3x3n066a_cl.evt
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100% completed
Total Good Bad: Region Time Phase Grade Cut
12038 2109 9929 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
12038 2109 9929 0 0 0 0
in 16832. seconds
Spectrum has 2109 counts for 0.1253 counts/sec
... written the PHA data Extension
-> Extracting background spectrum.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi3_0_3x3n066a_cl.evt
10% completed
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Total Good Bad: Region Time Phase Grade Cut
12038 3442 8596 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
12038 3442 8596 0 0 0 0
in 16832. seconds
Spectrum has 3442 counts for 0.2045 counts/sec
... written the PHA data Extension
-> Creating RMF for ae503032010xi3_0_3x3n066a_sr.piinfile,s,h,"ae503032010xi3_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 ae503032010xi3_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 - 16832. 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 - 116 are grouped by a factor 117 ... 117 - 136 are grouped by a factor 10 ... 137 - 142 are grouped by a factor 6 ... 143 - 149 are grouped by a factor 7 ... 150 - 155 are grouped by a factor 6 ... 156 - 159 are grouped by a factor 4 ... 160 - 167 are grouped by a factor 8 ... 168 - 172 are grouped by a factor 5 ... 173 - 175 are grouped by a factor 3 ... 176 - 187 are grouped by a factor 4 ... 188 - 192 are grouped by a factor 5 ... 193 - 204 are grouped by a factor 6 ... 205 - 214 are grouped by a factor 5 ... 215 - 217 are grouped by a factor 3 ... 218 - 222 are grouped by a factor 5 ... 223 - 225 are grouped by a factor 3 ... 226 - 230 are grouped by a factor 5 ... 231 - 233 are grouped by a factor 3 ... 234 - 238 are grouped by a factor 5 ... 239 - 242 are grouped by a factor 4 ... 243 - 251 are grouped by a factor 3 ... 252 - 255 are grouped by a factor 2 ... 256 - 264 are grouped by a factor 3 ... 265 - 269 are grouped by a factor 5 ... 270 - 276 are grouped by a factor 7 ... 277 - 281 are grouped by a factor 5 ... 282 - 288 are grouped by a factor 7 ... 289 - 296 are grouped by a factor 8 ... 297 - 305 are grouped by a factor 9 ... 306 - 313 are grouped by a factor 8 ... 314 - 327 are grouped by a factor 14 ... 328 - 337 are grouped by a factor 10 ... 338 - 349 are grouped by a factor 12 ... 350 - 359 are grouped by a factor 10 ... 360 - 368 are grouped by a factor 9 ... 369 - 381 are grouped by a factor 13 ... 382 - 399 are grouped by a factor 18 ... 400 - 413 are grouped by a factor 14 ... 414 - 435 are grouped by a factor 22 ... 436 - 452 are grouped by a factor 17 ... 453 - 472 are grouped by a factor 20 ... 473 - 496 are grouped by a factor 24 ... 497 - 534 are grouped by a factor 19 ... 535 - 564 are grouped by a factor 30 ... 565 - 599 are grouped by a factor 35 ... 600 - 641 are grouped by a factor 42 ... 642 - 700 are grouped by a factor 59 ... 701 - 748 are grouped by a factor 48 ... 749 - 810 are grouped by a factor 62 ... 811 - 868 are grouped by a factor 58 ... 869 - 945 are grouped by a factor 77 ... 946 - 1036 are grouped by a factor 91 ... 1037 - 1124 are grouped by a factor 88 ... 1125 - 1199 are grouped by a factor 75 ... 1200 - 1312 are grouped by a factor 113 ... 1313 - 1420 are grouped by a factor 108 ... 1421 - 1543 are grouped by a factor 123 ... 1544 - 1697 are grouped by a factor 154 ... 1698 - 1869 are grouped by a factor 172 ... 1870 - 2049 are grouped by a factor 180 ... 2050 - 2144 are grouped by a factor 95 ... 2145 - 2356 are grouped by a factor 212 ... 2357 - 2673 are grouped by a factor 317 ... 2674 - 3020 are grouped by a factor 347 ... 3021 - 3390 are grouped by a factor 370 ... 3391 - 3832 are grouped by a factor 442 ... 3833 - 4095 are grouped by a factor 263 ... --------------------------------------------- ... 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 ae503032010xi3_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 ae503032010xi0_0_3x3n066a_sr.pi;
1 spectrum in use
Spectral Data File: ae503032010xi0_0_3x3n066a_sr.pi Spectrum 1
Net count rate (cts/s) for Spectrum:1 -7.469e-03 +/- 3.558e-03 (-5.8 % total)
Assigned to Data Group 1 and Plot Group 1
Noticed Channels: 1-81
Telescope: SUZAKU Instrument: XIS0 Channel Type: PI
Exposure Time: 1.682e+04 sec
Using Background File ae503032010xi0_0_3x3n066a_bg.pi
Background Exposure Time: 1.682e+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 ae503032010xi1_0_3x3n069b_sr.pi;
2 spectra in use
Spectral Data File: ae503032010xi1_0_3x3n069b_sr.pi Spectrum 2
Net count rate (cts/s) for Spectrum:2 -1.691e-02 +/- 7.735e-03 (-2.8 % total)
Assigned to Data Group 2 and Plot Group 2
Noticed Channels: 1-291
Telescope: SUZAKU Instrument: XIS1 Channel Type: PI
Exposure Time: 1.683e+04 sec
Using Background File ae503032010xi1_0_3x3n069b_bg.pi
Background Exposure Time: 1.683e+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 ae503032010xi3_0_3x3n066a_sr.pi;
3 spectra in use
Spectral Data File: ae503032010xi3_0_3x3n066a_sr.pi Spectrum 3
Net count rate (cts/s) for Spectrum:3 -1.803e-03 +/- 3.484e-03 (-1.4 % total)
Assigned to Data Group 3 and Plot Group 3
Noticed Channels: 1-80
Telescope: SUZAKU Instrument: XIS3 Channel Type: PI
Exposure Time: 1.683e+04 sec
Using Background File ae503032010xi3_0_3x3n066a_bg.pi
Background Exposure Time: 1.683e+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: 4 channels ignored from source number 1
ignore: 87 channels ignored from source number 2
ignore: 4 channels ignored from source number 3
!XSPEC12>ignore *:**-0.2 12.0-**;
1 channels (1) ignored in spectrum # 1
27 channels (1-27) ignored in spectrum # 2
1 channels (1) ignored in spectrum # 3
4 channels (78-81) ignored in spectrum # 1
36 channels (256-291) ignored in spectrum # 2
4 channels (77-80) ignored in spectrum # 3
!XSPEC12>setplot splashpage off;
!XSPEC12>setplot energy;
!XSPEC12>setplot device ae503032010xis_0_pi.gif/gif;
!XSPEC12>setplot com log y on;
!XSPEC12>setplot com rescale y;
!XSPEC12>setplot com label top SUZAKU XIS observation of VELA JR P20 (Sequence 503032010);
!XSPEC12>setplot com label file Exposure time: 50.5ks (total from all detectors);
!XSPEC12>setplot com time off;
!XSPEC12>plot;
!XSPEC12>exit;
XSPEC: quit
!XSPEC12>tclexit
-> Created ae503032010xis_0_pi.gif.
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi0_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
12960 12960 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
12960 12960 0 0 0 0 0
in 16824. seconds
Image has 12960 counts for 0.7703 counts/sec
-> stdout output from extractor
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi1_0_3x3n069b_cl.evt
10% completed
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30% completed
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100% completed
Total Good Bad: Region Time Phase Grade Cut
60534 60534 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
60534 60534 0 0 0 0 0
in 16832. seconds
Image has 60534 counts for 3.596 counts/sec
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi3_0_3x3n066a_cl.evt
10% completed
20% completed
30% completed
40% completed
50% completed
60% completed
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80% completed
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100% completed
Total Good Bad: Region Time Phase Grade Cut
12038 12038 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
12038 12038 0 0 0 0 0
in 16832. seconds
Image has 12038 counts for 0.7152 counts/sec
-> Creating four panel plot.No of detectors read in: 30 ![XIMAGE> cpd ae503032010xis_0_im.gif/gif ![XIMAGE> cey 2000 ![XIMAGE> viewport 2x2gif ![XIMAGE> read/fits/rebin=2/size=-20 ae503032010xi0_0_3x3n066a_sk.img Telescope SUZAKU XIS0 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 4.0000000 Copied MAP1 to MAP9 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 4. ![XIMAGE> ra_dec/ra=133.6020/dec=-46.3260/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 805.472681211 Y = 772.641460568 ![XIMAGE> ra_dec/ra=133.6020/dec=-46.3260/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 805.472681211 Y = 772.641460568 ![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 $exposure ks" ![XIMAGE> grid/ticks_only ![XIMAGE> read/fits/rebin=2/size=-20 ae503032010xi1_0_3x3n069b_sk.img Telescope SUZAKU XIS1 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 5.0000000 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 5. ![XIMAGE> ra_dec/ra=133.6020/dec=-46.3260/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 805.472681211 Y = 772.641460568 ![XIMAGE> ra_dec/ra=133.6020/dec=-46.3260/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 805.472681211 Y = 772.641460568 ![XIMAGE> chh key=instrume ![XIMAGE> set detname [chh key=instrume] ![XIMAGE> chh key=exposure ![XIMAGE> expr [chh key=exposure]/1E3 ![XIMAGE> format %.1f [expr [chh key=exposure]/1E3] ![XIMAGE> set exposure [format %.1f [expr [chh key=exposure]/1E3]] ![XIMAGE> iminfo/csize=0.75 "$detname $exposure ks" ![XIMAGE> grid/ticks_only ![XIMAGE> read/fits/rebin=2/size=-20 ae503032010xi3_0_3x3n066a_sk.img Telescope SUZAKU XIS3 Negative size interpreted as arcmin Image size = 576 x 576 pixels Image rebin = 2.000 Image center = 768.5, 768.5 Reading an image Image level, min = 0.0000000 max = 2.0000000 ![XIMAGE> display/noframe Plotting image Min = 0. Max = 2. ![XIMAGE> ra_dec/ra=133.6020/dec=-46.3260/color=3/symbol=2 Conversion based on MAP1 Pixel coordinates X = 805.472681211 Y = 772.641460568 ![XIMAGE> ra_dec/ra=133.6020/dec=-46.3260/circle=180/color=3 Conversion based on MAP1 Pixel coordinates X = 805.472681211 Y = 772.641460568 ![XIMAGE> chh key=instrume ![XIMAGE> set detname [chh key=instrume] ![XIMAGE> chh key=exposure ![XIMAGE> expr [chh key=exposure]/1E3 ![XIMAGE> format %.1f [expr [chh key=exposure]/1E3] ![XIMAGE> set exposure [format %.1f [expr [chh key=exposure]/1E3]] ![XIMAGE> iminfo/csize=0.75 "$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 503032010)" ![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,"ae503032010hxd_0_wam_uf.evt",,,"HXD wam fits file name ?" outroot,s,a,"ae503032010hxd",,,"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)
**************************
***** Analysis chain *****
**************************
ANL HEADAS converter 1.81 for ANL version 1.81
PUT: 119569
QUIT: 1 |
<--- [ 1] HXDtrnFitsRead version 0.4.2
| OK: 119568/119569
[ 2] HXDleapsecInit version 2.0.1
| OK: 119568/119568
[ 3] HXDmktrnlc version 2.0.0
| OK: 119568/119568
GET: 119568
*** 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 119568 119568 SINGLE
HXD:TRN:PACKET_AETIME 8 8 119568 0 SINGLE
HXD:TRN:PACKET_S_TIME 8 8 119568 239136 SINGLE
HXD:TRN:PACKET_SEC_HEADER 4 4 119568 0 SINGLE
HXD:TRB:IBLOCK 4 4 119568 239136 SINGLE
HXD:TRN:AE_DE_Len_Err 4 4 119568 119568 SINGLE
HXD:TRN:BOARD 4 4 119568 239136 SINGLE
HXD:TRN:BLOCK 4 4 119568 239136 SINGLE
HXD:TRN:RDBIN 4 4 119568 239136 SINGLE
HXD:TRN:TBLID 4 4 119568 239136 SINGLE
HXD:TRN:DATA_SIZE 4 4 119568 239136 SINGLE
HXD:TRN:SYS_ERR_CODE 4 4 119568 239136 SINGLE
HXD:TRH:BLOCK 4 4 119568 239136 SINGLE
HXD:TRH:TIME 4 4 119568 119568 SINGLE
HXD:TRH:GB_TIME 4 4 119568 119568 SINGLE
HXD:TRH:GB_FLG 4 4 119568 239136 SINGLE
HXD:TRH:TIME_MODE 4 4 119568 239136 SINGLE
HXD:TRH:RBM 4 4 119568 239136 SINGLE
HXD:TRH:GB_FRZ 4 4 119568 239136 SINGLE
HXD:TRH:DT_MODE 4 4 119568 239136 SINGLE
HXD:TRH:SUMLD_MODE 4 4 119568 239136 SINGLE
HXD:TRH:BOARD 4 4 119568 239136 SINGLE
HXD:TRH:GB_TRG 4 4 119568 239136 SINGLE
HXD:TRB:PI 216 216 119568 0 SINGLE
HXD:TRB:PH 216 216 119568 239136 SINGLE
HXD:TRB:OVER_FLOW 4 4 119568 239136 SINGLE
HXD:TRB:PSEUDO 4 4 119568 239136 SINGLE
HXD:TRB:TRN_ANT 20 20 119568 239136 SINGLE
HXD:TRB:UD 4 4 119568 239136 SINGLE
HXD:TRB:DEAD_TIME 4 4 119568 239136 SINGLE
HXD:TRB:SUM_LD 4 4 119568 239136 SINGLE
HXD:TRB:WELL_ANT 16 16 119568 239136 SINGLE
HXD:TRN:TRN_QUALITY 4 4 119568 0 SINGLE
HXDtrnFitsRead:IROW 4 4 119568 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 119568 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 2.912 0.138 3.050 75.05
[ 2] HXDleapsecInit 0.040 0.067 0.107 2.63
[ 3] HXDmktrnlc 0.710 0.173 0.883 21.73
(others) 0.019 0.005 0.024 0.59
--------------------------------------------------------------------------
TOTAL 3.680 0.383 4.063 100.00
-> 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: ae503032010hxd_0_gsono_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
582763 582763 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
582763 582763 0 0 0 0 0
in 14798. seconds
Fits light curve has 582763 counts for 39.38 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: ae503032010hxd_0_pinno_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
7515 7515 0 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
7515 7515 0 0 0 0 0
in 14798. seconds
Fits light curve has 7515 counts for 0.5078 counts/sec
-> lcurve cmd: color 1 on 2
lcurve 1.0 (xronos5.21)
Series 1 file 1:ae503032010hxd_0_gsono_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ VELA JR P20 Start Time (d) .... 14651 05:51:06.184
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14651 14:00:15.478
No. of Rows ....... 159 Bin Time (s) ...... 98.46
Right Ascension ... 133.6020 Internal time sys.. Converted to TJD
Declination ....... -46.3260 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:ae503032010hxd_0_pinno_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ VELA JR P20 Start Time (d) .... 14651 05:51:06.184
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14651 14:00:15.478
No. of Rows ....... 159 Bin Time (s) ...... 98.46
Right Ascension ... 133.6020 Internal time sys.. Converted to TJD
Declination ....... -46.3260 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 ... 14651.24382157407 (days) 5:51: 6:184 (h:m:s:ms)
Expected Stop .... 14651.58351247763 (days) 14: 0:15:478 (h:m:s:ms)
Minimum Newbin Time 98.460000 (s)
for Maximum Newbin No.. 299
Default Newbin Time is: 98.460000 (s) (to have 1 Intv. of 299 Newbins)
Type INDEF to accept the default value
Newbin Time ...... 98.460000 (s)
Maximum Newbin No. 299
Default Newbins per Interval are: 299
(giving 1 Interval of 299 Newbins)
Type INDEF to accept the default value
Maximum of 1 Intvs. with 299 Newbins of 98.4600 (s)
Three plotting styles available:
Hardness [1] ; Intensity vs Time (or Phase) [2];
Ratio & Intensity vs time (or Phase)[3]
299 analysis results per interval
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Intv 1 Start 14651 5:51:55
Ser.1 Avg 39.35 Chisq 1005. Var 2.973 Newbs. 159
Min 36.31 Max 43.12 expVar 0.4878 Bins 159
Ser.2 Avg 0.5150 Chisq 323.0 Var 0.1432E-01 Newbs. 159
Min 0.2031 Max 0.9344 expVar 0.6702E-02 Bins 159
-> Creating light curves for XIS.Input sky coordinates: 1.3360200000000E+02, -4.6326000000000E+01 Output pixel coordinates: 8.0547268121080E+02, 7.7264146056822E+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,"ae503032010xi0_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,133.617543148208,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,136.32715258739,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,103.000349776589,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"133.6175",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"-46.3272",,,"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,"268465264.000000",,,"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,133.602001420244,,,"R.A. (J2000) in deg" deltaJ2000,r,a,-46.3260004459417,,,"DEC. (J2000) in deg" alphaB1950,r,a,133.172655444617,,,"R.A. (B1950) in deg" deltaB1950,r,a,-46.1347243976261,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00695813524225741,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00184122596750314,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,18.5246591720172,,,"angular difference in arcsec by aberration" l,r,a,266.520060497167,,,"Galactic longitude (deg)" b,r,a,-0.896147631224649,,,"Galactic latitude (deg)" x,r,a,805.47,,,"X value of SKY coorindates (pixel)" y,r,a,772.64,,,"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,805.464865990823,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,772.639425079818,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,786.122746974134,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.178013493077,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,146.122746974134,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.178013493077,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.398425277475821,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-39.7909681401,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,7,,,"PIXEL number of XRS" hxd_skyx,r,a,805.469987163187,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,772.639998562468,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,786.125188458024,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.180047008824,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,987.622188458024,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.180047008824,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.81461125762876,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.83279184486596,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,805.469999999988,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,772.639999999968,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,786.125194577881,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.180052106063,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,526.625194577881,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.680052106063,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,497,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,1,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,14,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,16,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.05866979407152,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-162.645593657012,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,805.469999999988,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,772.639999999968,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,786.125194577881,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.180052106063,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,526.625194577881,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.680052106063,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,526,,,"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,526,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,526,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,0.912538223563339,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-113.769042464942,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,805.469999999988,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,772.639999999968,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,786.125194577881,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.180052106063,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,529.625194577881,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.680052106063,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,494,,,"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,494,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,494,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.870663581297487,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-0.205808306334113,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,805.469999999988,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,772.639999999968,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,786.125194577881,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.180052106063,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,518.625194577881,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.680052106063,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,505,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,1,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,6,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,8,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.949375590146739,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,23.7579978833495,,,"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 805.470 (pixel)
Y 772.640 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae503032010xi0_0_3x3n066a_cl.evt+1'
EA1 133.617543148208 (deg)
EA2 136.327152587390 (deg)
EA3 103.000349776589 (deg)
REF_ALPHA 133.6175 (deg) / 8h54m28.2s
REF_DELTA -46.3272 (deg) / -46d19m38s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268465264.000 / 2008-07-04T05:41:03 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 ( 133.6020 , -46.3260 ) [deg] / ( 8h54m24.5s , -46d19m34s )
B1950 ( 133.1727 , -46.1347 ) [deg] / ( 8h52m41.4s , -46d08m05s )
Galactic ( 266.5201 , -0.8961 ) [deg]
Aberration ( -25.0493 , -6.6284 ) [arcsec], Ang.Distance = 18.5247
XRS SKY ( 805.4649 , 772.6394 ) [pixel]
XRS FOC ( 786.1227 , 783.1780 ) [pixel]
XRS DET ( 146.1227 , 143.1780 ) [pixel]
XRS THETA/PHI 0.3984 [arcmin] / -39.7910 [deg]
XRS PIXEL = 7
HXD SKY ( 805.4700 , 772.6400 ) [pixel]
HXD FOC ( 786.1252 , 783.1800 ) [pixel]
HXD DET ( 987.6222 , 783.1800 ) [pixel]
HXD THETA/PHI 3.8146 [arcmin] / -3.8328 [deg]
XIS0 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS0 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS0 DET ( 526.6252 , 515.6801 ) [pixel]
XIS0 ACT ( 497 , 515 ) [pixel]
XIS0 RAW ( 14 , 515 ) [pixel] at SEGMENT = 1
XIS0 PPU ( 16 , 515 ) [pixel]
XIS0 THETA/PHI 1.0587 [arcmin] / -162.6456 [deg]
XIS1 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS1 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS1 DET ( 526.6252 , 520.6801 ) [pixel]
XIS1 ACT ( 520 , 526 ) [pixel]
XIS1 RAW ( 8 , 526 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 526 ) [pixel]
XIS1 THETA/PHI 0.9125 [arcmin] / -113.7690 [deg]
XIS2 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS2 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS2 DET ( 529.6252 , 509.6801 ) [pixel]
XIS2 ACT ( 514 , 494 ) [pixel]
XIS2 RAW ( 2 , 494 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 494 ) [pixel]
XIS2 THETA/PHI 0.8707 [arcmin] / -0.2058 [deg]
XIS3 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS3 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS3 DET ( 518.6252 , 523.6801 ) [pixel]
XIS3 ACT ( 505 , 523 ) [pixel]
XIS3 RAW ( 6 , 523 ) [pixel] at SEGMENT = 1
XIS3 PPU ( 8 , 523 ) [pixel]
XIS3 THETA/PHI 0.9494 [arcmin] / 23.7580 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae503032010xi0_0_3x3n066a_cl.evt_source.reg.tmp circle(805,772,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi0_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
12960 1062 11898 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
12960 1062 11898 0 0 0 0
in 16824. seconds
Fits light curve has 1062 counts for 6.3125E-02 counts/sec
-> Creating source region file.Input sky coordinates: 1.3360200000000E+02, -4.6326000000000E+01 Output pixel coordinates: 8.0547268121080E+02, 7.7264146056822E+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,"ae503032010xi1_0_3x3n069b_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,133.617543148208,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,136.32715258739,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,103.000349776589,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"133.6175",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"-46.3272",,,"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,"268465264.000000",,,"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,133.602001420244,,,"R.A. (J2000) in deg" deltaJ2000,r,a,-46.3260004459417,,,"DEC. (J2000) in deg" alphaB1950,r,a,133.172655444617,,,"R.A. (B1950) in deg" deltaB1950,r,a,-46.1347243976261,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00695813524225741,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00184122596750314,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,18.5246591720172,,,"angular difference in arcsec by aberration" l,r,a,266.520060497167,,,"Galactic longitude (deg)" b,r,a,-0.896147631224649,,,"Galactic latitude (deg)" x,r,a,805.47,,,"X value of SKY coorindates (pixel)" y,r,a,772.64,,,"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,805.464865990823,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,772.639425079818,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,786.122746974134,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.178013493077,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,146.122746974134,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.178013493077,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.398425277475821,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-39.7909681401,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,7,,,"PIXEL number of XRS" hxd_skyx,r,a,805.469987163187,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,772.639998562468,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,786.125188458024,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.180047008824,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,987.622188458024,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.180047008824,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.81461125762876,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.83279184486596,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,805.469999999988,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,772.639999999968,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,786.125194577881,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.180052106063,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,526.625194577881,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.680052106063,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,497,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,1,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,14,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,16,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.05866979407152,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-162.645593657012,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,805.469999999988,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,772.639999999968,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,786.125194577881,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.180052106063,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,526.625194577881,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.680052106063,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,526,,,"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,526,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,526,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,0.912538223563339,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-113.769042464942,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,805.469999999988,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,772.639999999968,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,786.125194577881,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.180052106063,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,529.625194577881,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.680052106063,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,494,,,"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,494,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,494,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.870663581297487,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-0.205808306334113,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,805.469999999988,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,772.639999999968,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,786.125194577881,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.180052106063,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,518.625194577881,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.680052106063,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,505,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,1,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,6,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,8,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.949375590146739,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,23.7579978833495,,,"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 805.470 (pixel)
Y 772.640 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae503032010xi1_0_3x3n069b_cl.evt+1'
EA1 133.617543148208 (deg)
EA2 136.327152587390 (deg)
EA3 103.000349776589 (deg)
REF_ALPHA 133.6175 (deg) / 8h54m28.2s
REF_DELTA -46.3272 (deg) / -46d19m38s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268465264.000 / 2008-07-04T05:41:03 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 ( 133.6020 , -46.3260 ) [deg] / ( 8h54m24.5s , -46d19m34s )
B1950 ( 133.1727 , -46.1347 ) [deg] / ( 8h52m41.4s , -46d08m05s )
Galactic ( 266.5201 , -0.8961 ) [deg]
Aberration ( -25.0493 , -6.6284 ) [arcsec], Ang.Distance = 18.5247
XRS SKY ( 805.4649 , 772.6394 ) [pixel]
XRS FOC ( 786.1227 , 783.1780 ) [pixel]
XRS DET ( 146.1227 , 143.1780 ) [pixel]
XRS THETA/PHI 0.3984 [arcmin] / -39.7910 [deg]
XRS PIXEL = 7
HXD SKY ( 805.4700 , 772.6400 ) [pixel]
HXD FOC ( 786.1252 , 783.1800 ) [pixel]
HXD DET ( 987.6222 , 783.1800 ) [pixel]
HXD THETA/PHI 3.8146 [arcmin] / -3.8328 [deg]
XIS0 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS0 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS0 DET ( 526.6252 , 515.6801 ) [pixel]
XIS0 ACT ( 497 , 515 ) [pixel]
XIS0 RAW ( 14 , 515 ) [pixel] at SEGMENT = 1
XIS0 PPU ( 16 , 515 ) [pixel]
XIS0 THETA/PHI 1.0587 [arcmin] / -162.6456 [deg]
XIS1 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS1 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS1 DET ( 526.6252 , 520.6801 ) [pixel]
XIS1 ACT ( 520 , 526 ) [pixel]
XIS1 RAW ( 8 , 526 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 526 ) [pixel]
XIS1 THETA/PHI 0.9125 [arcmin] / -113.7690 [deg]
XIS2 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS2 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS2 DET ( 529.6252 , 509.6801 ) [pixel]
XIS2 ACT ( 514 , 494 ) [pixel]
XIS2 RAW ( 2 , 494 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 494 ) [pixel]
XIS2 THETA/PHI 0.8707 [arcmin] / -0.2058 [deg]
XIS3 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS3 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS3 DET ( 518.6252 , 523.6801 ) [pixel]
XIS3 ACT ( 505 , 523 ) [pixel]
XIS3 RAW ( 6 , 523 ) [pixel] at SEGMENT = 1
XIS3 PPU ( 8 , 523 ) [pixel]
XIS3 THETA/PHI 0.9494 [arcmin] / 23.7580 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae503032010xi1_0_3x3n069b_cl.evt_source.reg.tmp circle(805,772,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi1_0_3x3n069b_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
60534 4864 55670 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
60534 4864 55670 0 0 0 0
in 16832. seconds
Fits light curve has 4864 counts for 0.2890 counts/sec
-> Creating source region file.Input sky coordinates: 1.3360200000000E+02, -4.6326000000000E+01 Output pixel coordinates: 8.0547268121080E+02, 7.7264146056822E+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,"ae503032010xi3_0_3x3n066a_cl.evt+1",,,"input event FITS for pointing=KEY" ea1,r,a,133.617543148208,,,"1st ZYZ-Euler angle (deg)" ea2,r,a,136.32715258739,,,"2nd ZYZ-Euler angle (deg)" ea3,r,a,103.000349776589,,,"3rd ZYZ-Euler angle (deg)" ref_alpha,s,a,"133.6175",,,"R.A. of the reference pixel in deg or NNhNNmNN.NNs" ref_delta,s,a,"-46.3272",,,"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,"268465264.000000",,,"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,133.602001420244,,,"R.A. (J2000) in deg" deltaJ2000,r,a,-46.3260004459417,,,"DEC. (J2000) in deg" alphaB1950,r,a,133.172655444617,,,"R.A. (B1950) in deg" deltaB1950,r,a,-46.1347243976261,,,"DEC. (B1950) in deg" aber_alpha,r,a,-0.00695813524225741,,,"R.A. difference in deg by aberration" aber_delta,r,a,-0.00184122596750314,,,"DEC. difference in deg by aberration" aber_arcsec,r,a,18.5246591720172,,,"angular difference in arcsec by aberration" l,r,a,266.520060497167,,,"Galactic longitude (deg)" b,r,a,-0.896147631224649,,,"Galactic latitude (deg)" x,r,a,805.47,,,"X value of SKY coorindates (pixel)" y,r,a,772.64,,,"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,805.464865990823,,,"X value of XRS SKY coorindates (pixel)" xrs_skyy,r,a,772.639425079818,,,"Y value of XRS SKY coorindates (pixel)" xrs_focx,r,a,786.122746974134,,,"FOCX value of XRS FOC coorindates (pixel)" xrs_focy,r,a,783.178013493077,,,"FOCY value of XRS FOC coorindates (pixel)" xrs_detx,r,a,146.122746974134,,,"DETX value of XRS DET coorindates (pixel)" xrs_dety,r,a,143.178013493077,,,"DETY value of XRS DET coorindates (pixel)" xrs_theta,r,a,0.398425277475821,,,"offset angle from XRT-S optical axis (arcmin)" xrs_phi,r,a,-39.7909681401,,,"azimuth angle from XRT-S optical axis (deg)" xrs_pixel,i,a,7,,,"PIXEL number of XRS" hxd_skyx,r,a,805.469987163187,,,"X value of XRS SKY coorindates (pixel)" hxd_skyy,r,a,772.639998562468,,,"Y value of XRS SKY coorindates (pixel)" hxd_focx,r,a,786.125188458024,,,"FOCX value of HXD FOC coorindates (pixel)" hxd_focy,r,a,783.180047008824,,,"FOCY value of HXD FOC coorindates (pixel)" hxd_detx,r,a,987.622188458024,,,"DETX value of HXD DET coorindates (pixel)" hxd_dety,r,a,783.180047008824,,,"DETY value of HXD DET coorindates (pixel)" hxd_theta,r,a,3.81461125762876,,,"offset angle from HXD optical axis (arcmin)" hxd_phi,r,a,-3.83279184486596,,,"azimuth angle from HXD optical axis (deg)" xis0_skyx,r,a,805.469999999988,,,"X value of XIS0 SKY coorindates (pixel)" xis0_skyy,r,a,772.639999999968,,,"Y value of XIS0 SKY coorindates (pixel)" xis0_focx,r,a,786.125194577881,,,"FOCX value of XIS0 FOC coorindates (pixel)" xis0_focy,r,a,783.180052106063,,,"FOCY value of XIS0 FOC coorindates (pixel)" xis0_detx,r,a,526.625194577881,,,"DETX value of XIS0 DET coorindates (pixel)" xis0_dety,r,a,515.680052106063,,,"DETY value of XIS0 DET coorindates (pixel)" xis0_actx,i,a,497,,,"ACTX value of XIS0 ACT coorindates (pixel)" xis0_acty,i,a,515,,,"ACTY value of XIS0 ACT coorindates (pixel)" xis0_segment,i,a,1,,,"SEGMENT number of the XIS0" xis0_rawx,i,a,14,,,"RAWX value of XIS0 RAW coorindates (pixel)" xis0_rawy,i,a,515,,,"RAWY value of XIS0 RAW coorindates (pixel)" xis0_ppux,i,a,16,,,"PPUX value of XIS0 PPU coorindates (pixel)" xis0_ppuy,i,a,515,,,"PPUY value of XIS0 PPU coorindates (pixel)" xis0_theta,r,a,1.05866979407152,,,"offset angle from XIS0 optical axis (arcmin)" xis0_phi,r,a,-162.645593657012,,,"azimuth angle from XIS0 optical axis (deg)" xis1_skyx,r,a,805.469999999988,,,"X value of XIS1 SKY coorindates (pixel)" xis1_skyy,r,a,772.639999999968,,,"Y value of XIS1 SKY coorindates (pixel)" xis1_focx,r,a,786.125194577881,,,"FOCX value of XIS1 FOC coorindates (pixel)" xis1_focy,r,a,783.180052106063,,,"FOCY value of XIS1 FOC coorindates (pixel)" xis1_detx,r,a,526.625194577881,,,"DETX value of XIS1 DET coorindates (pixel)" xis1_dety,r,a,520.680052106063,,,"DETY value of XIS1 DET coorindates (pixel)" xis1_actx,i,a,520,,,"ACTX value of XIS1 ACT coorindates (pixel)" xis1_acty,i,a,526,,,"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,526,,,"RAWY value of XIS1 RAW coorindates (pixel)" xis1_ppux,i,a,10,,,"PPUX value of XIS1 PPU coorindates (pixel)" xis1_ppuy,i,a,526,,,"PPUY value of XIS1 PPU coorindates (pixel)" xis1_theta,r,a,0.912538223563339,,,"offset angle from XIS1 optical axis (arcmin)" xis1_phi,r,a,-113.769042464942,,,"azimuth angle from XIS1 optical axis (deg)" xis2_skyx,r,a,805.469999999988,,,"X value of XIS2 SKY coorindates (pixel)" xis2_skyy,r,a,772.639999999968,,,"Y value of XIS2 SKY coorindates (pixel)" xis2_focx,r,a,786.125194577881,,,"FOCX value of XIS2 FOC coorindates (pixel)" xis2_focy,r,a,783.180052106063,,,"FOCY value of XIS2 FOC coorindates (pixel)" xis2_detx,r,a,529.625194577881,,,"DETX value of XIS2 DET coorindates (pixel)" xis2_dety,r,a,509.680052106063,,,"DETY value of XIS2 DET coorindates (pixel)" xis2_actx,i,a,514,,,"ACTX value of XIS2 ACT coorindates (pixel)" xis2_acty,i,a,494,,,"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,494,,,"RAWY value of XIS2 RAW coorindates (pixel)" xis2_ppux,i,a,4,,,"PPUX value of XIS2 PPU coorindates (pixel)" xis2_ppuy,i,a,494,,,"PPUY value of XIS2 PPU coorindates (pixel)" xis2_theta,r,a,0.870663581297487,,,"offset angle from XIS2 optical axis (arcmin)" xis2_phi,r,a,-0.205808306334113,,,"azimuth angle from XIS2 optical axis (deg)" xis3_skyx,r,a,805.469999999988,,,"X value of XIS3 SKY coorindates (pixel)" xis3_skyy,r,a,772.639999999968,,,"Y value of XIS3 SKY coorindates (pixel)" xis3_focx,r,a,786.125194577881,,,"FOCX value of XIS3 FOC coorindates (pixel)" xis3_focy,r,a,783.180052106063,,,"FOCY value of XIS3 FOC coorindates (pixel)" xis3_detx,r,a,518.625194577881,,,"DETX value of XIS3 DET coorindates (pixel)" xis3_dety,r,a,523.680052106063,,,"DETY value of XIS3 DET coorindates (pixel)" xis3_actx,i,a,505,,,"ACTX value of XIS3 ACT coorindates (pixel)" xis3_acty,i,a,523,,,"ACTY value of XIS3 ACT coorindates (pixel)" xis3_segment,i,a,1,,,"SEGMENT number of the XIS3" xis3_rawx,i,a,6,,,"RAWX value of XIS3 RAW coorindates (pixel)" xis3_rawy,i,a,523,,,"RAWY value of XIS3 RAW coorindates (pixel)" xis3_ppux,i,a,8,,,"PPUX value of XIS3 PPU coorindates (pixel)" xis3_ppuy,i,a,523,,,"PPUY value of XIS3 PPU coorindates (pixel)" xis3_theta,r,a,0.949375590146739,,,"offset angle from XIS3 optical axis (arcmin)" xis3_phi,r,a,23.7579978833495,,,"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 805.470 (pixel)
Y 772.640 (pixel)
OUTPUT FULL
ATTITUDE KEY
POINTING KEY
INFILE 'ae503032010xi3_0_3x3n066a_cl.evt+1'
EA1 133.617543148208 (deg)
EA2 136.327152587390 (deg)
EA3 103.000349776589 (deg)
REF_ALPHA 133.6175 (deg) / 8h54m28.2s
REF_DELTA -46.3272 (deg) / -46d19m38s
REF_ROLL 0.0000 (deg)
ABERRATION YES
AETIME 268465264.000 / 2008-07-04T05:41:03 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 ( 133.6020 , -46.3260 ) [deg] / ( 8h54m24.5s , -46d19m34s )
B1950 ( 133.1727 , -46.1347 ) [deg] / ( 8h52m41.4s , -46d08m05s )
Galactic ( 266.5201 , -0.8961 ) [deg]
Aberration ( -25.0493 , -6.6284 ) [arcsec], Ang.Distance = 18.5247
XRS SKY ( 805.4649 , 772.6394 ) [pixel]
XRS FOC ( 786.1227 , 783.1780 ) [pixel]
XRS DET ( 146.1227 , 143.1780 ) [pixel]
XRS THETA/PHI 0.3984 [arcmin] / -39.7910 [deg]
XRS PIXEL = 7
HXD SKY ( 805.4700 , 772.6400 ) [pixel]
HXD FOC ( 786.1252 , 783.1800 ) [pixel]
HXD DET ( 987.6222 , 783.1800 ) [pixel]
HXD THETA/PHI 3.8146 [arcmin] / -3.8328 [deg]
XIS0 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS0 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS0 DET ( 526.6252 , 515.6801 ) [pixel]
XIS0 ACT ( 497 , 515 ) [pixel]
XIS0 RAW ( 14 , 515 ) [pixel] at SEGMENT = 1
XIS0 PPU ( 16 , 515 ) [pixel]
XIS0 THETA/PHI 1.0587 [arcmin] / -162.6456 [deg]
XIS1 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS1 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS1 DET ( 526.6252 , 520.6801 ) [pixel]
XIS1 ACT ( 520 , 526 ) [pixel]
XIS1 RAW ( 8 , 526 ) [pixel] at SEGMENT = 2
XIS1 PPU ( 10 , 526 ) [pixel]
XIS1 THETA/PHI 0.9125 [arcmin] / -113.7690 [deg]
XIS2 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS2 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS2 DET ( 529.6252 , 509.6801 ) [pixel]
XIS2 ACT ( 514 , 494 ) [pixel]
XIS2 RAW ( 2 , 494 ) [pixel] at SEGMENT = 2
XIS2 PPU ( 4 , 494 ) [pixel]
XIS2 THETA/PHI 0.8707 [arcmin] / -0.2058 [deg]
XIS3 SKY ( 805.4700 , 772.6400 ) [pixel]
XIS3 FOC ( 786.1252 , 783.1801 ) [pixel]
XIS3 DET ( 518.6252 , 523.6801 ) [pixel]
XIS3 ACT ( 505 , 523 ) [pixel]
XIS3 RAW ( 6 , 523 ) [pixel] at SEGMENT = 1
XIS3 PPU ( 8 , 523 ) [pixel]
XIS3 THETA/PHI 0.9494 [arcmin] / 23.7580 [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
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-> ae503032010xi3_0_3x3n066a_cl.evt_source.reg.tmp circle(805,772,172.71)
extractor v4.83 7 Mar 2008
Getting FITS WCS Keywords
Doing file: ae503032010xi3_0_3x3n066a_cl.evt
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Total Good Bad: Region Time Phase Grade Cut
12038 1013 11025 0 0 0 0
===============================================================================
Grand Total Good Bad: Region Time Phase Grade Cut
12038 1013 11025 0 0 0 0
in 16832. seconds
Fits light curve has 1013 counts for 6.0184E-02 counts/sec
-> Ploting light curves for XIS.
lcurve 1.0 (xronos5.21)
Series 1 file 1:ae503032010xi0_0_3x3n066a_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ VELA JR P20 Start Time (d) .... 14651 05:56:11.716
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14651 13:59:48.961
No. of Rows ....... 246 Bin Time (s) ...... 69.91
Right Ascension ... 133.6020 Internal time sys.. Converted to TJD
Declination ....... -46.3260 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:ae503032010xi1_0_3x3n069b_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ VELA JR P20 Start Time (d) .... 14651 05:56:11.716
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14651 13:59:56.961
No. of Rows ....... 246 Bin Time (s) ...... 69.91
Right Ascension ... 133.6020 Internal time sys.. Converted to TJD
Declination ....... -46.3260 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:ae503032010xi3_0_3x3n066a_sr.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ VELA JR P20 Start Time (d) .... 14651 05:56:11.716
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 14651 13:59:56.961
No. of Rows ....... 246 Bin Time (s) ...... 69.91
Right Ascension ... 133.6020 Internal time sys.. Converted to TJD
Declination ....... -46.3260 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 ... 14651.24735782275 (days) 5:56:11:716 (h:m:s:ms)
Expected Stop .... 14651.58329816320 (days) 13:59:56:961 (h:m:s:ms)
Minimum Newbin Time 69.910000 (s)
for Maximum Newbin No.. 416
Default Newbin Time is: 69.910000 (s) (to have 1 Intv. of 416 Newbins)
Type INDEF to accept the default value
Newbin Time ...... 69.910000 (s)
Maximum Newbin No. 416
Default Newbins per Interval are: 416
(giving 1 Interval of 416 Newbins)
Type INDEF to accept the default value
Maximum of 1 Intvs. with 416 Newbins of 69.9100 (s)
Two plotting styles available:
Colour-Colour [1] ; Intensity vs Time (or Phase)[ # of series (3 or 4)];
416 analysis results per interval
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Intv 1 Start 14651 5:56:46
Ser.1 Avg 0.6289E-01 Chisq 217.1 Var 0.8534E-03 Newbs. 246
Min 0.000 Max 0.1430 expVar 0.9558E-03 Bins 246
Ser.2 Avg 0.2911 Chisq 564.9 Var 0.1080E-01 Newbs. 246
Min 0.1001 Max 0.7581 expVar 0.4633E-02 Bins 246
Ser.3 Avg 0.6012E-01 Chisq 259.1 Var 0.1062E-02 Newbs. 246
Min 0.000 Max 0.2154 expVar 0.9245E-03 Bins 246
-> Creating light curves for BST.