The following information is also available:
Time column is TIME ORDERED-> Determining observation start and end
Offset of 152973057.059000 from 1993-01-01 00:00:00 is date and time (including leapseconds) = 1997-11-06 12:30:53.05899 Modified Julian Day = 50758.521447442130011-> leapsec.fits already present in current directory
Offset of 153007238.950700 from 1993-01-01 00:00:00 is date and time (including leapseconds) = 1997-11-06 22:00:34.95070 Modified Julian Day = 50758.917071188654518-> Observation begins 152973057.0590 1997-11-06 12:30:53
ATTITUDE_V0.9j
reading attitude file:./merged.tmp
open asc output file:out.tmp
AVERAGE ASPECT AND OFFSET FOR THIS ATTITUDE FILE:
Attitude file start and stop ascatime : 152973075.058800 153007238.950800
Data file start and stop ascatime : 152973075.058800 153007238.950800
Aspecting run start and stop ascatime : 152973075.058910 153007238.950691
Time interval averaged over (seconds) : 34163.891780
Total pointing and manuver time (sec) : 21181.976562 12981.983398
Mean boresight Euler angles : 296.354559 65.672139 192.085519
RA DEC SUN ANGLE
Mean solar position (deg) : 220.88 -15.84
Mean aberration (arcsec) : -7.17 13.03
Mean sat X-axis (deg) : 143.817952 63.000101 98.36
Mean sat Y-axis (deg) : 211.395407 -10.998301 10.41
Mean sat Z-axis (deg) : 296.354559 24.327862 83.84
RA DEC ROLL OFFSET
(deg) (deg) (deg) (arcmin)
Average 296.115417 24.145514 102.183472 0.092461
Minimum 296.096191 24.115631 102.166756 0.000000
Maximum 296.117737 24.147020 102.379913 13.707978
Sigma (RMS) 0.001365 0.000113 0.002549 0.103305
Number of ASPECT records processed = 33424
Aspecting to RA/DEC : 296.11541748 24.14551353
closing output file...
closing attitude file...
-> Standard Output From STOOL checkatt:
Opening file: ./out.tmp
***************** Observation Info ******************
RA (J2000 deg): 296.115 DEC: 24.146
START TIME: SC 152973075.0589 = UT 1997-11-06 12:31:15
****** Definition of Attitude SENSOR Bit Flags ******
Sensors used in the attitude determination and attitude control mode
1: USED, 0: NOT USED
B0:STT-A, B1:STT-B, B2:NSAS, B3:GAS, B4:SSAS-SA, B5:SSAS-SB,
B6:IRU-X, B7:IRU-Y, B8:IRU-Z, B9:IRU-S1, B10:IRU-S2,
B11: Attitude control mode 1: coarse, 0: fine
B12: Sun presence 1: day, 0: night
B13: STT-A earth occultation 1: earth occultation, 0: no occultation
B14: STT-B earth occultation 1: earth occultation, 0: no occultation
B16,17,18: STT-A track stars no.1,2,3, 1: USED, 0: NOT USED
B19,20,21: STT-B track stars no.1,2,3, 1: USED, 0: NOT USED
B22,23: always 0
******** Attitude File Reconstruction Summary *******
S S N G S S I I I I I A S S S S S
T T S A S S R R R R R C U T T T T
T T A S A A U U U U U M N T T T T
- - S . A A - - - - - . . - - - -
A B . . - - X Y Z S S . . A B A B
. . . . S S . . . 1 2 . . O O S S
offset_time separation sensor . . . . A B . . . . . . . C C T T
(sec) (arcmin) . . . . . . . . . . . . . C C R R
BIT: 0 1 2 3 4 5 6 7 8 9 A B C D E
4.000089 1.921 8203 1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
111.999702 0.910 8203 1 1 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0
443.998718 0.114 DC88C3 1 1 0 0 0 0 1 1 0 0 0 1 0 0 0 4 3
2619.991943 0.038 1C8443 1 1 0 0 0 0 1 0 0 0 1 0 0 0 0 4 3
6175.980469 0.172 8803 1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
8379.973633 0.011 8403 1 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0
11917.962891 0.048 8803 1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0
14075.955078 0.012 8403 1 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0
17659.943359 0.017 DC88C3 1 1 0 0 0 0 1 1 0 0 0 1 0 0 0 4 3
19835.937500 0.060 1C8443 1 1 0 0 0 0 1 0 0 0 1 0 0 0 0 4 3
23419.925781 0.030 C08883 1 1 0 0 0 0 0 1 0 0 0 1 0 0 0 0 0
25557.919922 0.079 8403 1 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0
29147.908203 0.082 C08883 1 1 0 0 0 0 0 1 0 0 0 1 0 0 0 0 0
31299.900391 0.083 8403 1 1 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0
34161.890625 0.157 9603 1 1 0 0 0 0 0 0 0 1 1 0 1 0 0 0 0
34163.890625 13.708 9E03 1 1 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0
Attitude Records: 33424
Attitude Steps: 16
Maneuver ACM time: 12982.0 sec
Pointed ACM time: 21182.0 sec
-> Calculating aspect point91 117 count=1 sum1=296.247 sum2=65.878 sum3=192.283 99 100 count=1 sum1=296.336 sum2=65.701 sum3=192.069 100 97 count=1 sum1=296.343 sum2=65.674 sum3=192.09 100 98 count=21 sum1=6223.24 sum2=1379.4 sum3=4033.6 100 99 count=12 sum1=3556.08 sum2=788.339 sum3=2304.86 100 100 count=3 sum1=889.011 sum2=197.1 sum3=576.21 101 96 count=59 sum1=17484.9 sum2=3874.5 sum3=11333 101 97 count=26446 sum1=7.83739e+06 sum2=1.73676e+06 sum3=5.07989e+06 101 98 count=4 sum1=1185.39 sum2=262.721 sum3=768.317 102 96 count=677 sum1=200635 sum2=44458.6 sum3=130041 102 97 count=6199 sum1=1.83712e+06 sum2=407098 sum3=1.19073e+06 0 out of 33424 points outside bin structure-> Euler angles: 296.355, 65.6719, 192.085
Interpolating 22 records in time interval 153007236.951 - 153007238.951
Dropped 1st C3 read after clocking change in ft971106_1230_2200S100401H.fits Dropped 1st C0 read after clocking change in ft971106_1230_2200S100401H.fits Dropped 1st C1 read after clocking change in ft971106_1230_2200S100601H.fits Dropping SF 797 with synch code word 1 = 245 not 243 Dropping SF 798 with synch code word 1 = 245 not 243 Dropping SF 799 with synch code word 1 = 235 not 243 Dropping SF 800 with synch code word 2 = 56 not 32 Dropping SF 801 with synch code word 1 = 195 not 243 Dropping SF 802 with invalid bit rate 7 Dropping SF 803 with synch code word 1 = 245 not 243 Dropping SF 804 with synch code word 0 = 122 not 250 Dropping SF 805 with synch code word 0 = 154 not 250 Dropping SF 806 with inconsistent datamode 0/31 Dropping SF 808 with synch code word 0 = 202 not 250 Dropping SF 892 with synch code word 1 = 195 not 243 SIS0 coordinate error time=152977008.92143 x=0 y=192 pha[0]=0 chip=0 GIS2 coordinate error time=152977018.10599 x=0 y=0 pha=768 rise=0 Dropping SF 896 with synch code word 2 = 16 not 32 Dropping SF 898 with inconsistent continuation flag Dropping SF 899 with synch code word 0 = 255 not 250 Dropping SF 900 with synch code word 2 = 224 not 32 Dropping SF 901 with synch code word 1 = 147 not 243 Dropping SF 902 with synch code word 1 = 195 not 243 Dropping SF 903 with inconsistent datamode 0/31 Dropping SF 904 with synch code word 0 = 154 not 250 Dropping SF 905 with synch code word 1 = 195 not 243 Dropping SF 906 with corrupted frame indicator Dropping SF 907 with synch code word 2 = 35 not 32 Dropping SF 908 with synch code word 2 = 44 not 32 Dropping SF 909 with synch code word 2 = 16 not 32 Dropping SF 910 with synch code word 0 = 122 not 250 Dropping SF 911 with synch code word 1 = 240 not 243 Dropping SF 914 with corrupted frame indicator SIS1 coordinate error time=152977124.92105 x=96 y=0 pha[0]=0 chip=0 Dropping SF 999 with synch code word 0 = 202 not 250 GIS2 coordinate error time=152977319.72612 x=96 y=0 pha=0 rise=0 SIS0 coordinate error time=152977312.92046 x=0 y=0 pha[0]=192 chip=0 Dropping SF 1011 with inconsistent CCD ID 1/0 SIS0 coordinate error time=152977320.92043 x=0 y=3 pha[0]=0 chip=0 Dropping SF 1013 with corrupted frame indicator GIS2 coordinate error time=152977333.15967 x=48 y=0 pha=0 rise=0 GIS2 coordinate error time=152977334.6128 x=128 y=0 pha=1 rise=0 GIS2 coordinate error time=152977336.09326 x=0 y=0 pha=96 rise=0 GIS2 coordinate error time=152977340.94481 x=0 y=0 pha=384 rise=0 SIS0 coordinate error time=152977332.92039 x=24 y=0 pha[0]=0 chip=0 GIS2 coordinate error time=152977341.43308 x=0 y=0 pha=768 rise=0 GIS2 coordinate error time=152977342.16746 x=24 y=0 pha=0 rise=0 SIS1 coordinate error time=152977332.92039 x=0 y=192 pha[0]=0 chip=0 SIS1 coordinate error time=152977332.92039 x=0 y=12 pha[0]=0 chip=0 Dropping SF 1020 with inconsistent datamode 0/3 GIS2 coordinate error time=152977345.61666 x=24 y=0 pha=0 rise=0 SIS1 coordinate error time=152977336.92037 x=0 y=192 pha[0]=0 chip=0 Dropping SF 1022 with synch code word 1 = 240 not 243 Dropping SF 1023 with synch code word 0 = 58 not 250 Dropping SF 1024 with synch code word 1 = 240 not 243 Dropping SF 1025 with corrupted frame indicator Dropping SF 1026 with synch code word 0 = 58 not 250 Dropping SF 1027 with synch code word 0 = 202 not 250 Dropping SF 1028 with synch code word 1 = 240 not 243 Dropping SF 1029 with synch code word 1 = 255 not 243 GIS2 coordinate error time=152977363.12051 x=96 y=0 pha=0 rise=0 GIS2 coordinate error time=152977363.41739 x=0 y=0 pha=24 rise=0 GIS2 coordinate error time=152977363.81973 x=12 y=0 pha=0 rise=0 GIS3 coordinate error time=152977363.93692 x=0 y=0 pha=512 rise=0 GIS2 coordinate error time=152977364.39004 x=12 y=0 pha=0 rise=0 GIS2 coordinate error time=152977365.01114 x=48 y=0 pha=0 rise=0 SIS0 peak error time=152977356.92032 x=26 y=346 ph0=1906 ph6=2254 SIS0 coordinate error time=152977356.92032 x=0 y=0 pha[0]=6 chip=0 SIS0 coordinate error time=152977356.92032 x=0 y=3 pha[0]=0 chip=0 Dropping SF 1031 with synch code word 0 = 58 not 250 Dropping SF 1032 with synch code word 0 = 154 not 250 Dropping SF 1033 with synch code word 0 = 249 not 250 GIS2 coordinate error time=152977372.34705 x=24 y=0 pha=0 rise=0 GIS2 coordinate error time=152977372.83533 x=0 y=0 pha=24 rise=0 SIS0 peak error time=152977364.92029 x=112 y=159 ph0=360 ph1=2041 SIS0 coordinate error time=152977364.92029 x=0 y=0 pha[0]=1 chip=0 SIS0 peak error time=152977364.92029 x=0 y=0 ph0=1 ph1=1984 SIS0 coordinate error time=152977364.92029 x=0 y=48 pha[0]=0 chip=0 SIS0 coordinate error time=152977364.92029 x=0 y=48 pha[0]=0 chip=0 Dropping SF 1035 with synch code word 2 = 224 not 32 Dropping SF 1036 with synch code word 1 = 51 not 243 Dropping SF 1037 with corrupted frame indicator Dropping SF 1038 with synch code word 0 = 58 not 250 Dropping SF 1039 with synch code word 1 = 51 not 243 Dropping SF 1040 with synch code word 0 = 249 not 250 Dropping SF 1041 with synch code word 0 = 246 not 250 GIS2 coordinate error time=152977389.31184 x=24 y=0 pha=0 rise=0 SIS1 coordinate error time=152977380.92023 x=0 y=0 pha[0]=192 chip=0 SIS0 coordinate error time=152977384.92023 x=0 y=48 pha[0]=0 chip=0 Dropping SF 1044 with synch code word 0 = 251 not 250 GIS2 coordinate error time=152977399.12821 x=12 y=0 pha=0 rise=0 SIS0 coordinate error time=152977392.9202 x=0 y=12 pha[0]=0 chip=0 GIS2 coordinate error time=152977405.17507 x=0 y=0 pha=96 rise=0 GIS2 coordinate error time=152977405.84694 x=24 y=0 pha=0 rise=0 Dropped 1st C0 read after clocking change in ft971106_1230_2200S000801H.fits Dropped 1st C1 read after clocking change in ft971106_1230_2200S000801H.fits Dropped 1st C2 read after clocking change in ft971106_1230_2200S000801H.fits Dropped 1st C3 read after clocking change in ft971106_1230_2200S000801H.fits Dropped 1st C1 read after clocking change in ft971106_1230_2200S001001H.fits 607.998 second gap between superframes 2681 and 2682 17.9997 second gap between superframes 4704 and 4705 Dropping SF 5071 with inconsistent datamode 0/31 Dropping SF 5072 with invalid bit rate 7 112 second gap between superframes 6994 and 6995 Dropping SF 7348 with inconsistent datamode 0/31 GIS3 coordinate error time=153005057.45089 x=0 y=0 pha=256 rise=0 Dropping SF 7352 with invalid bit rate 7 1.99999 second gap between superframes 8345 and 8346 8368 of 8423 super frames processed-> Removing the following files with NEVENTS=0
ft971106_1230_2200G200470H.fits[0] ft971106_1230_2200G201270H.fits[0] ft971106_1230_2200G201370H.fits[0] ft971106_1230_2200G201470M.fits[0] ft971106_1230_2200G201570M.fits[0] ft971106_1230_2200G201670H.fits[0] ft971106_1230_2200G201770H.fits[0] ft971106_1230_2200G201870H.fits[0] ft971106_1230_2200G201970H.fits[0] ft971106_1230_2200G202070H.fits[0] ft971106_1230_2200G202670H.fits[0] ft971106_1230_2200G202770H.fits[0] ft971106_1230_2200G202870M.fits[0] ft971106_1230_2200G202970M.fits[0] ft971106_1230_2200G203070L.fits[0] ft971106_1230_2200G203170L.fits[0] ft971106_1230_2200G203270H.fits[0] ft971106_1230_2200G203370H.fits[0] ft971106_1230_2200G203470H.fits[0] ft971106_1230_2200G203570H.fits[0] ft971106_1230_2200G203670H.fits[0] ft971106_1230_2200G203770H.fits[0] ft971106_1230_2200G204370H.fits[0] ft971106_1230_2200G204470H.fits[0] ft971106_1230_2200G204570L.fits[0] ft971106_1230_2200G204670L.fits[0] ft971106_1230_2200G205570M.fits[0] ft971106_1230_2200G205670L.fits[0] ft971106_1230_2200G205770M.fits[0] ft971106_1230_2200G206470H.fits[0] ft971106_1230_2200G206570H.fits[0] ft971106_1230_2200G206670M.fits[0] ft971106_1230_2200G206770H.fits[0] ft971106_1230_2200G206870H.fits[0] ft971106_1230_2200G207370H.fits[0] ft971106_1230_2200G207470H.fits[0] ft971106_1230_2200G300470H.fits[0] ft971106_1230_2200G301570H.fits[0] ft971106_1230_2200G301670M.fits[0] ft971106_1230_2200G301770M.fits[0] ft971106_1230_2200G301870H.fits[0] ft971106_1230_2200G301970H.fits[0] ft971106_1230_2200G302070H.fits[0] ft971106_1230_2200G302170H.fits[0] ft971106_1230_2200G302970H.fits[0] ft971106_1230_2200G303070M.fits[0] ft971106_1230_2200G303170M.fits[0] ft971106_1230_2200G303270L.fits[0] ft971106_1230_2200G303370L.fits[0] ft971106_1230_2200G303470H.fits[0] ft971106_1230_2200G303570H.fits[0] ft971106_1230_2200G303670H.fits[0] ft971106_1230_2200G303770H.fits[0] ft971106_1230_2200G304670H.fits[0] ft971106_1230_2200G304770L.fits[0] ft971106_1230_2200G304870L.fits[0] ft971106_1230_2200G304970M.fits[0] ft971106_1230_2200G305770M.fits[0] ft971106_1230_2200G305870L.fits[0] ft971106_1230_2200G305970M.fits[0] ft971106_1230_2200G306670H.fits[0] ft971106_1230_2200G306770H.fits[0] ft971106_1230_2200G306870M.fits[0] ft971106_1230_2200G306970H.fits[0] ft971106_1230_2200G307070H.fits[0] ft971106_1230_2200G307270H.fits[0] ft971106_1230_2200G307570H.fits[0] ft971106_1230_2200G307670H.fits[0] ft971106_1230_2200S001901L.fits[0] ft971106_1230_2200S100601H.fits[0] ft971106_1230_2200S102201L.fits[0]-> Checking for empty GTI extensions
ft971106_1230_2200S000101M.fits[2] ft971106_1230_2200S000201H.fits[2] ft971106_1230_2200S000301H.fits[2] ft971106_1230_2200S000401L.fits[2] ft971106_1230_2200S000501H.fits[2] ft971106_1230_2200S000601M.fits[2] ft971106_1230_2200S000701H.fits[2] ft971106_1230_2200S000801H.fits[2] ft971106_1230_2200S000901H.fits[2] ft971106_1230_2200S001001H.fits[2] ft971106_1230_2200S001101L.fits[2] ft971106_1230_2200S001201H.fits[2] ft971106_1230_2200S001301M.fits[2] ft971106_1230_2200S001401L.fits[2] ft971106_1230_2200S001501H.fits[2] ft971106_1230_2200S001601L.fits[2] ft971106_1230_2200S001701H.fits[2] ft971106_1230_2200S001801L.fits[2] ft971106_1230_2200S002001L.fits[2] ft971106_1230_2200S002101M.fits[2] ft971106_1230_2200S002201L.fits[2] ft971106_1230_2200S002301M.fits[2] ft971106_1230_2200S002401L.fits[2] ft971106_1230_2200S002501L.fits[2] ft971106_1230_2200S002601L.fits[2] ft971106_1230_2200S002701M.fits[2] ft971106_1230_2200S002801L.fits[2] ft971106_1230_2200S002901H.fits[2] ft971106_1230_2200S003001M.fits[2] ft971106_1230_2200S003101M.fits[2] ft971106_1230_2200S003201H.fits[2]-> Merging GTIs from the following files:
ft971106_1230_2200S100101H.fits[2] ft971106_1230_2200S100201M.fits[2] ft971106_1230_2200S100301H.fits[2] ft971106_1230_2200S100401H.fits[2] ft971106_1230_2200S100501H.fits[2] ft971106_1230_2200S100701L.fits[2] ft971106_1230_2200S100801H.fits[2] ft971106_1230_2200S100901H.fits[2] ft971106_1230_2200S101001H.fits[2] ft971106_1230_2200S101101M.fits[2] ft971106_1230_2200S101201H.fits[2] ft971106_1230_2200S101301H.fits[2] ft971106_1230_2200S101401L.fits[2] ft971106_1230_2200S101501H.fits[2] ft971106_1230_2200S101601M.fits[2] ft971106_1230_2200S101701L.fits[2] ft971106_1230_2200S101801H.fits[2] ft971106_1230_2200S101901L.fits[2] ft971106_1230_2200S102001H.fits[2] ft971106_1230_2200S102101L.fits[2] ft971106_1230_2200S102301L.fits[2] ft971106_1230_2200S102401M.fits[2] ft971106_1230_2200S102501L.fits[2] ft971106_1230_2200S102601M.fits[2] ft971106_1230_2200S102701L.fits[2] ft971106_1230_2200S102801L.fits[2] ft971106_1230_2200S102901L.fits[2] ft971106_1230_2200S103001M.fits[2] ft971106_1230_2200S103101L.fits[2] ft971106_1230_2200S103201H.fits[2] ft971106_1230_2200S103301M.fits[2] ft971106_1230_2200S103401M.fits[2] ft971106_1230_2200S103501H.fits[2] ft971106_1230_2200S103601H.fits[2] ft971106_1230_2200S103701H.fits[2]-> Merging GTIs from the following files:
ft971106_1230_2200G200170H.fits[2] ft971106_1230_2200G200270M.fits[2] ft971106_1230_2200G200370M.fits[2] ft971106_1230_2200G200570H.fits[2] ft971106_1230_2200G200670H.fits[2] ft971106_1230_2200G200770H.fits[2] ft971106_1230_2200G200870L.fits[2] ft971106_1230_2200G200970H.fits[2] ft971106_1230_2200G201070H.fits[2] ft971106_1230_2200G201170H.fits[2] ft971106_1230_2200G202170H.fits[2] ft971106_1230_2200G202270H.fits[2] ft971106_1230_2200G202370H.fits[2] ft971106_1230_2200G202470L.fits[2] ft971106_1230_2200G202570H.fits[2] ft971106_1230_2200G203870H.fits[2] ft971106_1230_2200G203970H.fits[2] ft971106_1230_2200G204070L.fits[2] ft971106_1230_2200G204170L.fits[2] ft971106_1230_2200G204270H.fits[2] ft971106_1230_2200G204770M.fits[2] ft971106_1230_2200G204870M.fits[2] ft971106_1230_2200G204970M.fits[2] ft971106_1230_2200G205070L.fits[2] ft971106_1230_2200G205170M.fits[2] ft971106_1230_2200G205270M.fits[2] ft971106_1230_2200G205370M.fits[2] ft971106_1230_2200G205470M.fits[2] ft971106_1230_2200G205870M.fits[2] ft971106_1230_2200G205970M.fits[2] ft971106_1230_2200G206070L.fits[2] ft971106_1230_2200G206170L.fits[2] ft971106_1230_2200G206270H.fits[2] ft971106_1230_2200G206370H.fits[2] ft971106_1230_2200G206970H.fits[2] ft971106_1230_2200G207070H.fits[2] ft971106_1230_2200G207170H.fits[2] ft971106_1230_2200G207270H.fits[2]-> Merging GTIs from the following files:
ft971106_1230_2200G300170H.fits[2] ft971106_1230_2200G300270M.fits[2] ft971106_1230_2200G300370M.fits[2] ft971106_1230_2200G300570H.fits[2] ft971106_1230_2200G300670H.fits[2] ft971106_1230_2200G300770H.fits[2] ft971106_1230_2200G300870L.fits[2] ft971106_1230_2200G300970H.fits[2] ft971106_1230_2200G301070H.fits[2] ft971106_1230_2200G301170H.fits[2] ft971106_1230_2200G301270H.fits[2] ft971106_1230_2200G301370H.fits[2] ft971106_1230_2200G301470H.fits[2] ft971106_1230_2200G302270H.fits[2] ft971106_1230_2200G302370H.fits[2] ft971106_1230_2200G302470H.fits[2] ft971106_1230_2200G302570H.fits[2] ft971106_1230_2200G302670L.fits[2] ft971106_1230_2200G302770H.fits[2] ft971106_1230_2200G302870H.fits[2] ft971106_1230_2200G303870H.fits[2] ft971106_1230_2200G303970H.fits[2] ft971106_1230_2200G304070H.fits[2] ft971106_1230_2200G304170H.fits[2] ft971106_1230_2200G304270L.fits[2] ft971106_1230_2200G304370L.fits[2] ft971106_1230_2200G304470H.fits[2] ft971106_1230_2200G304570H.fits[2] ft971106_1230_2200G305070M.fits[2] ft971106_1230_2200G305170M.fits[2] ft971106_1230_2200G305270L.fits[2] ft971106_1230_2200G305370M.fits[2] ft971106_1230_2200G305470M.fits[2] ft971106_1230_2200G305570M.fits[2] ft971106_1230_2200G305670M.fits[2] ft971106_1230_2200G306070M.fits[2] ft971106_1230_2200G306170M.fits[2] ft971106_1230_2200G306270L.fits[2] ft971106_1230_2200G306370L.fits[2] ft971106_1230_2200G306470H.fits[2] ft971106_1230_2200G306570H.fits[2] ft971106_1230_2200G307170H.fits[2] ft971106_1230_2200G307370H.fits[2] ft971106_1230_2200G307470H.fits[2]
GISSORTCODE:LO:Start program GISSORTCODE:E1:Modal parameter missing in ft971106_1230_2200G200170H.fits GISSORTCODE:E1:ft971106_1230_2200G200170H.fits dropped from merge (3 photons) GISSORTCODE:LO:End program-> Standard Error Output From STOOL gissortsplit:
GISSORTSPLIT:LO:Start program GISSORTSPLIT:LO:g200170h.prelist merge count = 2 photon cnt = 3 GISSORTSPLIT:LO:g200270h.prelist merge count = 3 photon cnt = 5 GISSORTSPLIT:LO:g200370h.prelist merge count = 1 photon cnt = 2 GISSORTSPLIT:LO:g200470h.prelist merge count = 11 photon cnt = 11447 GISSORTSPLIT:LO:g200570h.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g200670h.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g200170l.prelist merge count = 5 photon cnt = 4632 GISSORTSPLIT:LO:g200270l.prelist merge count = 2 photon cnt = 132 GISSORTSPLIT:LO:g200170m.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g200270m.prelist merge count = 2 photon cnt = 34 GISSORTSPLIT:LO:g200370m.prelist merge count = 4 photon cnt = 3051 GISSORTSPLIT:LO:g200470m.prelist merge count = 2 photon cnt = 52 GISSORTSPLIT:LO:g200570m.prelist merge count = 1 photon cnt = 16 GISSORTSPLIT:LO:g200670m.prelist merge count = 1 photon cnt = 17 GISSORTSPLIT:LO:Total filenames split = 37 GISSORTSPLIT:LO:Total split file cnt = 14 GISSORTSPLIT:LO:End program-> Creating ad55013000g200170h.unf
---- cmerge: version 1.6 ---- A total of 11 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200G200770H.fits 2 -- ft971106_1230_2200G200970H.fits 3 -- ft971106_1230_2200G201170H.fits 4 -- ft971106_1230_2200G202370H.fits 5 -- ft971106_1230_2200G202570H.fits 6 -- ft971106_1230_2200G203970H.fits 7 -- ft971106_1230_2200G204270H.fits 8 -- ft971106_1230_2200G206270H.fits 9 -- ft971106_1230_2200G206370H.fits 10 -- ft971106_1230_2200G207170H.fits 11 -- ft971106_1230_2200G207270H.fits Merging binary extension #: 2 1 -- ft971106_1230_2200G200770H.fits 2 -- ft971106_1230_2200G200970H.fits 3 -- ft971106_1230_2200G201170H.fits 4 -- ft971106_1230_2200G202370H.fits 5 -- ft971106_1230_2200G202570H.fits 6 -- ft971106_1230_2200G203970H.fits 7 -- ft971106_1230_2200G204270H.fits 8 -- ft971106_1230_2200G206270H.fits 9 -- ft971106_1230_2200G206370H.fits 10 -- ft971106_1230_2200G207170H.fits 11 -- ft971106_1230_2200G207270H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55013000g200270l.unf
---- cmerge: version 1.6 ---- A total of 5 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200G200870L.fits 2 -- ft971106_1230_2200G202470L.fits 3 -- ft971106_1230_2200G204170L.fits 4 -- ft971106_1230_2200G205070L.fits 5 -- ft971106_1230_2200G206170L.fits Merging binary extension #: 2 1 -- ft971106_1230_2200G200870L.fits 2 -- ft971106_1230_2200G202470L.fits 3 -- ft971106_1230_2200G204170L.fits 4 -- ft971106_1230_2200G205070L.fits 5 -- ft971106_1230_2200G206170L.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55013000g200370m.unf
---- cmerge: version 1.6 ---- A total of 4 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200G200370M.fits 2 -- ft971106_1230_2200G204970M.fits 3 -- ft971106_1230_2200G205470M.fits 4 -- ft971106_1230_2200G205970M.fits Merging binary extension #: 2 1 -- ft971106_1230_2200G200370M.fits 2 -- ft971106_1230_2200G204970M.fits 3 -- ft971106_1230_2200G205470M.fits 4 -- ft971106_1230_2200G205970M.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Ignoring the following files containing 000000132 events
ft971106_1230_2200G204070L.fits ft971106_1230_2200G206070L.fits-> Ignoring the following files containing 000000052 events
ft971106_1230_2200G200270M.fits ft971106_1230_2200G205370M.fits-> Ignoring the following files containing 000000034 events
ft971106_1230_2200G204870M.fits ft971106_1230_2200G205870M.fits-> Ignoring the following files containing 000000017 events
ft971106_1230_2200G205270M.fits-> Ignoring the following files containing 000000016 events
ft971106_1230_2200G205170M.fits-> Ignoring the following files containing 000000005 events
ft971106_1230_2200G202270H.fits ft971106_1230_2200G203870H.fits ft971106_1230_2200G207070H.fits-> Ignoring the following files containing 000000003 events
ft971106_1230_2200G202170H.fits ft971106_1230_2200G206970H.fits-> Ignoring the following files containing 000000002 events
ft971106_1230_2200G201070H.fits-> Ignoring the following files containing 000000001 events
ft971106_1230_2200G200570H.fits-> Ignoring the following files containing 000000001 events
ft971106_1230_2200G200670H.fits-> Ignoring the following files containing 000000001 events
ft971106_1230_2200G204770M.fits-> Collecting GIS3 event files by mode
GISSORTCODE:LO:Start program GISSORTCODE:E1:Modal parameter missing in ft971106_1230_2200G300170H.fits GISSORTCODE:E1:ft971106_1230_2200G300170H.fits dropped from merge (3 photons) GISSORTCODE:LO:End program-> Standard Error Output From STOOL gissortsplit:
GISSORTSPLIT:LO:Start program GISSORTSPLIT:LO:g300170h.prelist merge count = 3 photon cnt = 3 GISSORTSPLIT:LO:g300270h.prelist merge count = 2 photon cnt = 2 GISSORTSPLIT:LO:g300370h.prelist merge count = 3 photon cnt = 10 GISSORTSPLIT:LO:g300470h.prelist merge count = 2 photon cnt = 8 GISSORTSPLIT:LO:g300570h.prelist merge count = 1 photon cnt = 1 GISSORTSPLIT:LO:g300670h.prelist merge count = 12 photon cnt = 10454 GISSORTSPLIT:LO:g300770h.prelist merge count = 1 photon cnt = 4 GISSORTSPLIT:LO:g300870h.prelist merge count = 1 photon cnt = 3 GISSORTSPLIT:LO:g300970h.prelist merge count = 1 photon cnt = 3 GISSORTSPLIT:LO:g300170l.prelist merge count = 5 photon cnt = 4372 GISSORTSPLIT:LO:g300270l.prelist merge count = 2 photon cnt = 103 GISSORTSPLIT:LO:g300170m.prelist merge count = 2 photon cnt = 23 GISSORTSPLIT:LO:g300270m.prelist merge count = 4 photon cnt = 2784 GISSORTSPLIT:LO:g300370m.prelist merge count = 2 photon cnt = 51 GISSORTSPLIT:LO:g300470m.prelist merge count = 1 photon cnt = 13 GISSORTSPLIT:LO:g300570m.prelist merge count = 1 photon cnt = 24 GISSORTSPLIT:LO:Total filenames split = 43 GISSORTSPLIT:LO:Total split file cnt = 16 GISSORTSPLIT:LO:End program-> Creating ad55013000g300170h.unf
---- cmerge: version 1.6 ---- A total of 12 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200G300770H.fits 2 -- ft971106_1230_2200G300970H.fits 3 -- ft971106_1230_2200G301170H.fits 4 -- ft971106_1230_2200G301370H.fits 5 -- ft971106_1230_2200G302570H.fits 6 -- ft971106_1230_2200G302770H.fits 7 -- ft971106_1230_2200G304170H.fits 8 -- ft971106_1230_2200G304470H.fits 9 -- ft971106_1230_2200G306470H.fits 10 -- ft971106_1230_2200G306570H.fits 11 -- ft971106_1230_2200G307370H.fits 12 -- ft971106_1230_2200G307470H.fits Merging binary extension #: 2 1 -- ft971106_1230_2200G300770H.fits 2 -- ft971106_1230_2200G300970H.fits 3 -- ft971106_1230_2200G301170H.fits 4 -- ft971106_1230_2200G301370H.fits 5 -- ft971106_1230_2200G302570H.fits 6 -- ft971106_1230_2200G302770H.fits 7 -- ft971106_1230_2200G304170H.fits 8 -- ft971106_1230_2200G304470H.fits 9 -- ft971106_1230_2200G306470H.fits 10 -- ft971106_1230_2200G306570H.fits 11 -- ft971106_1230_2200G307370H.fits 12 -- ft971106_1230_2200G307470H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55013000g300270l.unf
---- cmerge: version 1.6 ---- A total of 5 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200G300870L.fits 2 -- ft971106_1230_2200G302670L.fits 3 -- ft971106_1230_2200G304370L.fits 4 -- ft971106_1230_2200G305270L.fits 5 -- ft971106_1230_2200G306370L.fits Merging binary extension #: 2 1 -- ft971106_1230_2200G300870L.fits 2 -- ft971106_1230_2200G302670L.fits 3 -- ft971106_1230_2200G304370L.fits 4 -- ft971106_1230_2200G305270L.fits 5 -- ft971106_1230_2200G306370L.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55013000g300370m.unf
---- cmerge: version 1.6 ---- A total of 4 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200G300370M.fits 2 -- ft971106_1230_2200G305170M.fits 3 -- ft971106_1230_2200G305670M.fits 4 -- ft971106_1230_2200G306170M.fits Merging binary extension #: 2 1 -- ft971106_1230_2200G300370M.fits 2 -- ft971106_1230_2200G305170M.fits 3 -- ft971106_1230_2200G305670M.fits 4 -- ft971106_1230_2200G306170M.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Ignoring the following files containing 000000103 events
ft971106_1230_2200G304270L.fits ft971106_1230_2200G306270L.fits-> Ignoring the following files containing 000000051 events
ft971106_1230_2200G300270M.fits ft971106_1230_2200G305570M.fits-> Ignoring the following files containing 000000024 events
ft971106_1230_2200G305470M.fits-> Ignoring the following files containing 000000023 events
ft971106_1230_2200G305070M.fits ft971106_1230_2200G306070M.fits-> Ignoring the following files containing 000000013 events
ft971106_1230_2200G305370M.fits-> Ignoring the following files containing 000000010 events
ft971106_1230_2200G302370H.fits ft971106_1230_2200G303970H.fits ft971106_1230_2200G307170H.fits-> Ignoring the following files containing 000000008 events
ft971106_1230_2200G302470H.fits ft971106_1230_2200G304070H.fits-> Ignoring the following files containing 000000004 events
ft971106_1230_2200G301270H.fits-> Ignoring the following files containing 000000003 events
ft971106_1230_2200G300570H.fits-> Ignoring the following files containing 000000003 events
ft971106_1230_2200G300670H.fits-> Ignoring the following files containing 000000003 events
ft971106_1230_2200G301470H.fits ft971106_1230_2200G302870H.fits ft971106_1230_2200G304570H.fits-> Ignoring the following files containing 000000002 events
ft971106_1230_2200G302270H.fits ft971106_1230_2200G303870H.fits-> Ignoring the following files containing 000000001 events
ft971106_1230_2200G301070H.fits-> Collecting SIS0 event files by mode
SIS0SORTCODE:LO:Start program SIS0SORTCODE:LO:End program-> Standard Error Output From STOOL sis0sortsplit:
SIS0SORTSPLIT:LO:Start program SIS0SORTSPLIT:LO:s000101h.prelist merge count = 10 photon cnt = 57920 SIS0SORTSPLIT:LO:s000201h.prelist merge count = 2 photon cnt = 13125 SIS0SORTSPLIT:LO:s000301l.prelist merge count = 10 photon cnt = 9689 SIS0SORTSPLIT:LO:s000401l.prelist merge count = 1 photon cnt = 24 SIS0SORTSPLIT:LO:s000501m.prelist merge count = 7 photon cnt = 12170 SIS0SORTSPLIT:LO:s000601m.prelist merge count = 1 photon cnt = 32 SIS0SORTSPLIT:LO:Total filenames split = 31 SIS0SORTSPLIT:LO:Total split file cnt = 6 SIS0SORTSPLIT:LO:End program-> Creating ad55013000s000101h.unf
---- cmerge: version 1.6 ---- A total of 10 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200S000201H.fits 2 -- ft971106_1230_2200S000301H.fits 3 -- ft971106_1230_2200S000501H.fits 4 -- ft971106_1230_2200S000701H.fits 5 -- ft971106_1230_2200S001001H.fits 6 -- ft971106_1230_2200S001201H.fits 7 -- ft971106_1230_2200S001501H.fits 8 -- ft971106_1230_2200S001701H.fits 9 -- ft971106_1230_2200S002901H.fits 10 -- ft971106_1230_2200S003201H.fits Merging binary extension #: 2 1 -- ft971106_1230_2200S000201H.fits 2 -- ft971106_1230_2200S000301H.fits 3 -- ft971106_1230_2200S000501H.fits 4 -- ft971106_1230_2200S000701H.fits 5 -- ft971106_1230_2200S001001H.fits 6 -- ft971106_1230_2200S001201H.fits 7 -- ft971106_1230_2200S001501H.fits 8 -- ft971106_1230_2200S001701H.fits 9 -- ft971106_1230_2200S002901H.fits 10 -- ft971106_1230_2200S003201H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55013000s000201h.unf
---- cmerge: version 1.6 ---- A total of 2 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200S000801H.fits 2 -- ft971106_1230_2200S000901H.fits Merging binary extension #: 2 1 -- ft971106_1230_2200S000801H.fits 2 -- ft971106_1230_2200S000901H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55013000s000301m.unf
---- cmerge: version 1.6 ---- A total of 7 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200S000101M.fits 2 -- ft971106_1230_2200S000601M.fits 3 -- ft971106_1230_2200S001301M.fits 4 -- ft971106_1230_2200S002101M.fits 5 -- ft971106_1230_2200S002301M.fits 6 -- ft971106_1230_2200S002701M.fits 7 -- ft971106_1230_2200S003001M.fits Merging binary extension #: 2 1 -- ft971106_1230_2200S000101M.fits 2 -- ft971106_1230_2200S000601M.fits 3 -- ft971106_1230_2200S001301M.fits 4 -- ft971106_1230_2200S002101M.fits 5 -- ft971106_1230_2200S002301M.fits 6 -- ft971106_1230_2200S002701M.fits 7 -- ft971106_1230_2200S003001M.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55013000s000401l.unf
---- cmerge: version 1.6 ---- A total of 10 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200S000401L.fits 2 -- ft971106_1230_2200S001101L.fits 3 -- ft971106_1230_2200S001401L.fits 4 -- ft971106_1230_2200S001601L.fits 5 -- ft971106_1230_2200S001801L.fits 6 -- ft971106_1230_2200S002001L.fits 7 -- ft971106_1230_2200S002201L.fits 8 -- ft971106_1230_2200S002401L.fits 9 -- ft971106_1230_2200S002601L.fits 10 -- ft971106_1230_2200S002801L.fits Merging binary extension #: 2 1 -- ft971106_1230_2200S000401L.fits 2 -- ft971106_1230_2200S001101L.fits 3 -- ft971106_1230_2200S001401L.fits 4 -- ft971106_1230_2200S001601L.fits 5 -- ft971106_1230_2200S001801L.fits 6 -- ft971106_1230_2200S002001L.fits 7 -- ft971106_1230_2200S002201L.fits 8 -- ft971106_1230_2200S002401L.fits 9 -- ft971106_1230_2200S002601L.fits 10 -- ft971106_1230_2200S002801L.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Ignoring the following files containing 000000032 events
ft971106_1230_2200S003101M.fits-> Ignoring the following files containing 000000024 events
ft971106_1230_2200S002501L.fits-> Collecting SIS1 event files by mode
SIS1SORTCODE:LO:Start program SIS1SORTCODE:LO:End program-> Standard Error Output From STOOL sis1sortsplit:
SIS1SORTSPLIT:LO:Start program SIS1SORTSPLIT:LO:s100101h.prelist merge count = 1 photon cnt = 10 SIS1SORTSPLIT:LO:s100201h.prelist merge count = 1 photon cnt = 12 SIS1SORTSPLIT:LO:s100301h.prelist merge count = 11 photon cnt = 65536 SIS1SORTSPLIT:LO:s100401h.prelist merge count = 2 photon cnt = 3163 SIS1SORTSPLIT:LO:s100501h.prelist merge count = 1 photon cnt = 29 SIS1SORTSPLIT:LO:s100601l.prelist merge count = 10 photon cnt = 12782 SIS1SORTSPLIT:LO:s100701l.prelist merge count = 1 photon cnt = 24 SIS1SORTSPLIT:LO:s100801m.prelist merge count = 7 photon cnt = 17192 SIS1SORTSPLIT:LO:s100901m.prelist merge count = 1 photon cnt = 32 SIS1SORTSPLIT:LO:Total filenames split = 35 SIS1SORTSPLIT:LO:Total split file cnt = 9 SIS1SORTSPLIT:LO:End program-> Creating ad55013000s100101h.unf
---- cmerge: version 1.6 ---- A total of 11 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200S100301H.fits 2 -- ft971106_1230_2200S100801H.fits 3 -- ft971106_1230_2200S101001H.fits 4 -- ft971106_1230_2200S101201H.fits 5 -- ft971106_1230_2200S101301H.fits 6 -- ft971106_1230_2200S101501H.fits 7 -- ft971106_1230_2200S101801H.fits 8 -- ft971106_1230_2200S102001H.fits 9 -- ft971106_1230_2200S103201H.fits 10 -- ft971106_1230_2200S103501H.fits 11 -- ft971106_1230_2200S103701H.fits Merging binary extension #: 2 1 -- ft971106_1230_2200S100301H.fits 2 -- ft971106_1230_2200S100801H.fits 3 -- ft971106_1230_2200S101001H.fits 4 -- ft971106_1230_2200S101201H.fits 5 -- ft971106_1230_2200S101301H.fits 6 -- ft971106_1230_2200S101501H.fits 7 -- ft971106_1230_2200S101801H.fits 8 -- ft971106_1230_2200S102001H.fits 9 -- ft971106_1230_2200S103201H.fits 10 -- ft971106_1230_2200S103501H.fits 11 -- ft971106_1230_2200S103701H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55013000s100201m.unf
---- cmerge: version 1.6 ---- A total of 7 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200S100201M.fits 2 -- ft971106_1230_2200S101101M.fits 3 -- ft971106_1230_2200S101601M.fits 4 -- ft971106_1230_2200S102401M.fits 5 -- ft971106_1230_2200S102601M.fits 6 -- ft971106_1230_2200S103001M.fits 7 -- ft971106_1230_2200S103301M.fits Merging binary extension #: 2 1 -- ft971106_1230_2200S100201M.fits 2 -- ft971106_1230_2200S101101M.fits 3 -- ft971106_1230_2200S101601M.fits 4 -- ft971106_1230_2200S102401M.fits 5 -- ft971106_1230_2200S102601M.fits 6 -- ft971106_1230_2200S103001M.fits 7 -- ft971106_1230_2200S103301M.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55013000s100301l.unf
---- cmerge: version 1.6 ---- A total of 10 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200S100701L.fits 2 -- ft971106_1230_2200S101401L.fits 3 -- ft971106_1230_2200S101701L.fits 4 -- ft971106_1230_2200S101901L.fits 5 -- ft971106_1230_2200S102101L.fits 6 -- ft971106_1230_2200S102301L.fits 7 -- ft971106_1230_2200S102501L.fits 8 -- ft971106_1230_2200S102701L.fits 9 -- ft971106_1230_2200S102901L.fits 10 -- ft971106_1230_2200S103101L.fits Merging binary extension #: 2 1 -- ft971106_1230_2200S100701L.fits 2 -- ft971106_1230_2200S101401L.fits 3 -- ft971106_1230_2200S101701L.fits 4 -- ft971106_1230_2200S101901L.fits 5 -- ft971106_1230_2200S102101L.fits 6 -- ft971106_1230_2200S102301L.fits 7 -- ft971106_1230_2200S102501L.fits 8 -- ft971106_1230_2200S102701L.fits 9 -- ft971106_1230_2200S102901L.fits 10 -- ft971106_1230_2200S103101L.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Creating ad55013000s100401h.unf
---- cmerge: version 1.6 ---- A total of 2 fits files ...... Sorting files using KEY: TSTART ... Checking GTI overlap in input files ... Merging binary extension #: 1 1 -- ft971106_1230_2200S100401H.fits 2 -- ft971106_1230_2200S100501H.fits Merging binary extension #: 2 1 -- ft971106_1230_2200S100401H.fits 2 -- ft971106_1230_2200S100501H.fits Checking the output file ... Extention # 1 ...... OK Extention # 2 ...... OK The program appears to have finished successfully!-> Ignoring the following files containing 000000032 events
ft971106_1230_2200S103401M.fits-> Ignoring the following files containing 000000029 events
ft971106_1230_2200S100901H.fits-> Ignoring the following files containing 000000024 events
ft971106_1230_2200S102801L.fits-> Ignoring the following files containing 000000012 events
ft971106_1230_2200S103601H.fits-> Ignoring the following files containing 000000010 events
ft971106_1230_2200S100101H.fits-> Tar-ing together the leftover raw files
a ft971106_1230_2200G200170H.fits 29K a ft971106_1230_2200G200270M.fits 31K a ft971106_1230_2200G200570H.fits 31K a ft971106_1230_2200G200670H.fits 31K a ft971106_1230_2200G201070H.fits 31K a ft971106_1230_2200G202170H.fits 31K a ft971106_1230_2200G202270H.fits 31K a ft971106_1230_2200G203870H.fits 31K a ft971106_1230_2200G204070L.fits 31K a ft971106_1230_2200G204770M.fits 31K a ft971106_1230_2200G204870M.fits 31K a ft971106_1230_2200G205170M.fits 31K a ft971106_1230_2200G205270M.fits 31K a ft971106_1230_2200G205370M.fits 31K a ft971106_1230_2200G205870M.fits 31K a ft971106_1230_2200G206070L.fits 31K a ft971106_1230_2200G206970H.fits 31K a ft971106_1230_2200G207070H.fits 31K a ft971106_1230_2200G300170H.fits 29K a ft971106_1230_2200G300270M.fits 31K a ft971106_1230_2200G300570H.fits 31K a ft971106_1230_2200G300670H.fits 31K a ft971106_1230_2200G301070H.fits 31K a ft971106_1230_2200G301270H.fits 31K a ft971106_1230_2200G301470H.fits 31K a ft971106_1230_2200G302270H.fits 31K a ft971106_1230_2200G302370H.fits 31K a ft971106_1230_2200G302470H.fits 31K a ft971106_1230_2200G302870H.fits 31K a ft971106_1230_2200G303870H.fits 31K a ft971106_1230_2200G303970H.fits 31K a ft971106_1230_2200G304070H.fits 31K a ft971106_1230_2200G304270L.fits 31K a ft971106_1230_2200G304570H.fits 31K a ft971106_1230_2200G305070M.fits 31K a ft971106_1230_2200G305370M.fits 31K a ft971106_1230_2200G305470M.fits 31K a ft971106_1230_2200G305570M.fits 31K a ft971106_1230_2200G306070M.fits 31K a ft971106_1230_2200G306270L.fits 31K a ft971106_1230_2200G307170H.fits 31K a ft971106_1230_2200S002501L.fits 29K a ft971106_1230_2200S003101M.fits 29K a ft971106_1230_2200S100101H.fits 26K a ft971106_1230_2200S100901H.fits 29K a ft971106_1230_2200S102801L.fits 29K a ft971106_1230_2200S103401M.fits 29K a ft971106_1230_2200S103601H.fits 29K-> Checking OBJECT keywords in HK and event files
temp2gain v4.3 'ft971106_1230.2200' is successfully opened Data Start Time is 152973055.06 (19971106 123051) Time Margin 2.0 sec included Sync error detected in 796 th SF Sync error detected in 797 th SF Sync error detected in 798 th SF Sync error detected in 799 th SF Sync error detected in 801 th SF Sync error detected in 885 th SF Sync error detected in 889 th SF Sync error detected in 892 th SF Sync error detected in 893 th SF Sync error detected in 894 th SF Sync error detected in 895 th SF Sync error detected in 896 th SF Sync error detected in 897 th SF Sync error detected in 898 th SF Sync error detected in 984 th SF Sync error detected in 1004 th SF Sync error detected in 1006 th SF Sync error detected in 1007 th SF Sync error detected in 1008 th SF Sync error detected in 1009 th SF Sync error detected in 1010 th SF Sync error detected in 1012 th SF Sync error detected in 1013 th SF Sync error detected in 1015 th SF Sync error detected in 1016 th SF Sync error detected in 1017 th SF Sync error detected in 1018 th SF Sync error detected in 1021 th SF 'ft971106_1230.2200' EOF detected, sf=8423 Data End Time is 153007240.95 (19971106 220036) Gain History is written in ft971106_1230_2200.ghf-> Stdout output from ISAS program temp2gain
leapsec FITS data was successfully read-> Checking if column CAL_START in ft971106_1230_2200.ghf[1] is in order
Time column is TIME ORDERED-> Checking if column CAL_STOP in ft971106_1230_2200.ghf[1] is in order
Time column is TIME ORDERED-> Calculating attitude correction from ft971106_1230_2200CMHK.fits
The sum of the selected column is 25024.000 The mean of the selected column is 94.787879 The standard deviation of the selected column is 1.4062884 The minimum of selected column is 92.000000 The maximum of selected column is 98.000000 The number of points used in calculation is 264-> Standard Output From FTOOL fstatistic:
The sum of the selected column is 25024.000 The mean of the selected column is 94.787879 The standard deviation of the selected column is 1.4062884 The minimum of selected column is 92.000000 The maximum of selected column is 98.000000 The number of points used in calculation is 264
ASCALIN_V0.9u(mod)-> Checking if ad55013000g200270l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000g200370m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000g300170h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000g300270l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000g300370m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000101h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000102h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000112h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000201h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000202h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000212h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000301m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000302m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000312m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000401l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000402l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s000412l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100101h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100102h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100112h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100201m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100202m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100212m.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100301l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100302l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100312l.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100401h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100402h.unf is covered by attitude file
ASCALIN_V0.9u(mod)-> Checking if ad55013000s100412h.unf is covered by attitude file
ASCALIN_V0.9u(mod)
S0-HK file: ft971106_1230_2200S0HK.fits S1-HK file: ft971106_1230_2200S1HK.fits G2-HK file: ft971106_1230_2200G2HK.fits G3-HK file: ft971106_1230_2200G3HK.fits Date and time are: 1997-11-06 12:30:48 mjd=50758.521400 Orbit file name is ./frf.orbit.241 Epoch of Orbital Elements: 1997-11-03 21:59:59 Rigidity Data File: ./rigidity.data.1.23 Attitude FRF: fa971106_1230.2200 output FITS File: ft971106_1230_2200.mkf Total 1069 Data bins were processed.-> Checking if column TIME in ft971106_1230_2200.mkf is in order
Time column is TIME ORDERED-> Calculating dead time values for filter file
The sum of the selected column is 5277.5368 The mean of the selected column is 25.372773 The standard deviation of the selected column is 34.820611 The minimum of selected column is 6.0569582 The maximum of selected column is 450.15765 The number of points used in calculation is 208-> Using the following selection criteria:
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL1>0 && S0_PIXL1<129.8 ) ) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Filtering ad55013000s000112h.unf into ad55013000s000112h.evt
The sum of the selected column is 5277.5368 The mean of the selected column is 25.372773 The standard deviation of the selected column is 34.820611 The minimum of selected column is 6.0569582 The maximum of selected column is 450.15765 The number of points used in calculation is 208-> Using the following selection criteria:
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL1>0 && S0_PIXL1<129.8 ) ) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Skipping ad55013000s000201h.unf because of mode
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL0>0)&&(S0_PIXL1>0)&&(S0_PIXL2>0)&&(S0_PIXL3>0) )&&( (S0_SATF0<1) ||(S0_SATF0>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF2<1) ||(S0_SATF2>1)) &&( (S0_SATF3<1) ||(S0_SATF3>1)) &&((T_DY_NT<0)||(T_DY_NT>64)) &&((T_SAA <0)||(T_SAA >64))-> Filtering ad55013000s000212h.unf into ad55013000s000212h.evt
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL0>0)&&(S0_PIXL1>0)&&(S0_PIXL2>0)&&(S0_PIXL3>0) )&&( (S0_SATF0<1) ||(S0_SATF0>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF2<1) ||(S0_SATF2>1)) &&( (S0_SATF3<1) ||(S0_SATF3>1)) &&((T_DY_NT<0)||(T_DY_NT>64)) &&((T_SAA <0)||(T_SAA >64))-> Skipping ad55013000s000301m.unf because of mode
The sum of the selected column is 1239.0664 The mean of the selected column is 24.295420 The standard deviation of the selected column is 8.9132711 The minimum of selected column is 10.812534 The maximum of selected column is 49.312653 The number of points used in calculation is 51-> Using the following selection criteria:
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL1>0 && S0_PIXL1<51 ) ) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Filtering ad55013000s000312m.unf into ad55013000s000312m.evt
The sum of the selected column is 1239.0664 The mean of the selected column is 24.295420 The standard deviation of the selected column is 8.9132711 The minimum of selected column is 10.812534 The maximum of selected column is 49.312653 The number of points used in calculation is 51-> Using the following selection criteria:
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL1>0 && S0_PIXL1<51 ) ) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Skipping ad55013000s000401l.unf because of mode
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL1>0) )&&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Deleting ad55013000s000402l.evt since it contains 0 events
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S0_PIXL1>0) )&&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&( (S0_SATF1<1) ||(S0_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Deleting ad55013000s000412l.evt since it contains 0 events
The sum of the selected column is 8072.6554 The mean of the selected column is 38.810843 The standard deviation of the selected column is 47.745843 The minimum of selected column is 6.3167086 The maximum of selected column is 547.06421 The number of points used in calculation is 208-> Using the following selection criteria:
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL1>0 && S1_PIXL1<182 ) ) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Filtering ad55013000s100112h.unf into ad55013000s100112h.evt
The sum of the selected column is 8072.6554 The mean of the selected column is 38.810843 The standard deviation of the selected column is 47.745843 The minimum of selected column is 6.3167086 The maximum of selected column is 547.06421 The number of points used in calculation is 208-> Using the following selection criteria:
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL1>0 && S1_PIXL1<182 ) ) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Skipping ad55013000s100201m.unf because of mode
The sum of the selected column is 2081.6628 The mean of the selected column is 40.816917 The standard deviation of the selected column is 20.111639 The minimum of selected column is 17.281305 The maximum of selected column is 121.00038 The number of points used in calculation is 51-> Using the following selection criteria:
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL1>0 && S1_PIXL1<101.1 ) ) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Filtering ad55013000s100212m.unf into ad55013000s100212m.evt
The sum of the selected column is 2081.6628 The mean of the selected column is 40.816917 The standard deviation of the selected column is 20.111639 The minimum of selected column is 17.281305 The maximum of selected column is 121.00038 The number of points used in calculation is 51-> Using the following selection criteria:
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL1>0 && S1_PIXL1<101.1 ) ) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Skipping ad55013000s100301l.unf because of mode
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL1>0) )&&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Deleting ad55013000s100302l.evt since it contains 0 events
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL1>0) )&&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&( (S1_SATF1<1) ||(S1_SATF1>1)) &&((T_DY_NT<0)||(T_DY_NT>16)) &&((T_SAA <0)||(T_SAA >16))-> Deleting ad55013000s100312l.evt since it contains 0 events
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL0>0)&&(S1_PIXL3>0) )&&( (S1_SATF3<1) ||(S1_SATF3>1)) &&( (S1_SATF0<1) ||(S1_SATF0>1)) &&( (S1_SATF3<1) ||(S1_SATF3>1)) &&( (S1_SATF0<1) ||(S1_SATF0>1)) &&((T_DY_NT<0)||(T_DY_NT>32)) &&((T_SAA <0)||(T_SAA >32))-> Filtering ad55013000s100412h.unf into ad55013000s100412h.evt
(SAA==0) &&(BR_EARTH>20) &&(ELV>10) &&(COR>6) &&(ACS==0) &&(ANG_DIST>0)&& (ANG_DIST<0.01) &&(FOV==0) && ( (S1_PIXL0>0)&&(S1_PIXL3>0) )&&( (S1_SATF3<1) ||(S1_SATF3>1)) &&( (S1_SATF0<1) ||(S1_SATF0>1)) &&( (S1_SATF3<1) ||(S1_SATF3>1)) &&( (S1_SATF0<1) ||(S1_SATF0>1)) &&((T_DY_NT<0)||(T_DY_NT>32)) &&((T_SAA <0)||(T_SAA >32))-> Filtering ad55013000g200170h.unf into ad55013000g200170h.evt
(SAA==0)&& (COR>4)&& (G2_H0+G2_H2+G3_H0+G3_H2<45)&& (G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&& (RBM_CONT<100)&& (ELV>5)&& (ACS==0)&& (ANG_DIST>0)&& (ANG_DIST<0.01)&& (G2_L1>0)-> Filtering ad55013000g200270l.unf into ad55013000g200270l.evt
(SAA==0)&& (COR>4)&& (G2_H0+G2_H2+G3_H0+G3_H2<45)&& (G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&& (RBM_CONT<100)&& (ELV>5)&& (ACS==0)&& (ANG_DIST>0)&& (ANG_DIST<0.01)&& (G2_L1>0)-> Filtering ad55013000g200370m.unf into ad55013000g200370m.evt
(SAA==0)&& (COR>4)&& (G2_H0+G2_H2+G3_H0+G3_H2<45)&& (G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&& (RBM_CONT<100)&& (ELV>5)&& (ACS==0)&& (ANG_DIST>0)&& (ANG_DIST<0.01)&& (G2_L1>0)-> Filtering ad55013000g300170h.unf into ad55013000g300170h.evt
(SAA==0)&& (COR>4)&& (G2_H0+G2_H2+G3_H0+G3_H2<45)&& (G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&& (RBM_CONT<100)&& (ELV>5)&& (ACS==0)&& (ANG_DIST>0)&& (ANG_DIST<0.01)&& (G3_L1>0)-> Filtering ad55013000g300270l.unf into ad55013000g300270l.evt
(SAA==0)&& (COR>4)&& (G2_H0+G2_H2+G3_H0+G3_H2<45)&& (G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&& (RBM_CONT<100)&& (ELV>5)&& (ACS==0)&& (ANG_DIST>0)&& (ANG_DIST<0.01)&& (G3_L1>0)-> Filtering ad55013000g300370m.unf into ad55013000g300370m.evt
(SAA==0)&& (COR>4)&& (G2_H0+G2_H2+G3_H0+G3_H2<45)&& (G2_H0+G2_H2+G3_H0+G3_H2<0.45*COR**2-13*COR+125)&& (RBM_CONT<100)&& (ELV>5)&& (ACS==0)&& (ANG_DIST>0)&& (ANG_DIST<0.01)&& (G3_L1>0)
-ANNULUS(128.5,128.5,192,88) -ELLIPSE(167.5,220,24.66,28.95,245.298)-> gis2_ano_on_flf_180295.fits already present in current directory
ASCAEXPO_V0.9b
reading data file: ad55013000g200170h.evt
reading gti ext: STDGTI
reading cal file: gis2_ano_on_flf_180295.fits
reading inst file: GIS2_REGION256.4_regionmap.tmp
making an inst map...
rebin gis: 1
multiply inst map...
reading att file: ./fa971106_1230.2200
making an exposure map...
Aspect RA/DEC/ROLL : 296.1160 24.1458 102.1846
Mean RA/DEC/ROLL : 296.1168 24.1724 102.1846
Pnt RA/DEC/ROLL : 296.1168 24.1250 102.1846
Image rebin factor : 1
Attitude Records : 33447
GTI intervals : 17
Total GTI (secs) : 6937.958
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 1256.00 1256.00
20 Percent Complete: Total/live time: 1620.02 1620.02
30 Percent Complete: Total/live time: 2176.02 2176.02
40 Percent Complete: Total/live time: 3466.05 3466.05
50 Percent Complete: Total/live time: 3657.47 3657.47
60 Percent Complete: Total/live time: 5051.96 5051.96
70 Percent Complete: Total/live time: 5051.96 5051.96
80 Percent Complete: Total/live time: 6937.96 6937.96
100 Percent Complete: Total/live time: 6937.96 6937.96
Number of attitude steps used: 19
Number of attitude steps avail: 21193
Mean RA/DEC pixel offset: -11.8902 -3.2370
writing expo file: ad55013000g200170h.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55013000g200170h.evt
ASCAEXPO_V0.9b
reading data file: ad55013000g200270l.evt
reading gti ext: STDGTI
reading cal file: gis2_ano_on_flf_180295.fits
reading inst file: GIS2_REGION256.4_regionmap.tmp
making an inst map...
rebin gis: 1
multiply inst map...
reading att file: ./fa971106_1230.2200
making an exposure map...
Aspect RA/DEC/ROLL : 296.1160 24.1458 102.1847
Mean RA/DEC/ROLL : 296.1174 24.1726 102.1847
Pnt RA/DEC/ROLL : 296.1125 24.1229 102.1847
Image rebin factor : 1
Attitude Records : 33447
GTI intervals : 2
Total GTI (secs) : 127.888
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 95.95 95.95
20 Percent Complete: Total/live time: 95.95 95.95
30 Percent Complete: Total/live time: 127.89 127.89
100 Percent Complete: Total/live time: 127.89 127.89
Number of attitude steps used: 3
Number of attitude steps avail: 1265
Mean RA/DEC pixel offset: -8.4907 -2.2768
writing expo file: ad55013000g200270l.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55013000g200270l.evt
ASCAEXPO_V0.9b
reading data file: ad55013000g200370m.evt
reading gti ext: STDGTI
reading cal file: gis2_ano_on_flf_180295.fits
reading inst file: GIS2_REGION256.4_regionmap.tmp
making an inst map...
rebin gis: 1
multiply inst map...
reading att file: ./fa971106_1230.2200
making an exposure map...
Aspect RA/DEC/ROLL : 296.1160 24.1458 102.1845
Mean RA/DEC/ROLL : 296.1177 24.1734 102.1845
Pnt RA/DEC/ROLL : 296.0945 24.0937 102.1845
Image rebin factor : 1
Attitude Records : 33447
GTI intervals : 4
Total GTI (secs) : 1808.127
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 324.00 324.00
20 Percent Complete: Total/live time: 432.05 432.05
30 Percent Complete: Total/live time: 1712.05 1712.05
40 Percent Complete: Total/live time: 1712.05 1712.05
50 Percent Complete: Total/live time: 1808.13 1808.13
100 Percent Complete: Total/live time: 1808.13 1808.13
Number of attitude steps used: 7
Number of attitude steps avail: 1975
Mean RA/DEC pixel offset: -10.8413 -2.0599
writing expo file: ad55013000g200370m.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55013000g200370m.evt-ANNULUS(128.5,128.5,192,88) -ELLIPSE(217,95,21.56,25.92,169.216)-> gis3_ano_on_flf_180295.fits already present in current directory
ASCAEXPO_V0.9b
reading data file: ad55013000g300170h.evt
reading gti ext: STDGTI
reading cal file: gis3_ano_on_flf_180295.fits
reading inst file: GIS3_REGION256.4_regionmap.tmp
making an inst map...
rebin gis: 1
multiply inst map...
reading att file: ./fa971106_1230.2200
making an exposure map...
Aspect RA/DEC/ROLL : 296.1160 24.1458 102.1859
Mean RA/DEC/ROLL : 296.1199 24.1477 102.1859
Pnt RA/DEC/ROLL : 296.1137 24.1497 102.1859
Image rebin factor : 1
Attitude Records : 33447
GTI intervals : 17
Total GTI (secs) : 6931.958
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 1254.00 1254.00
20 Percent Complete: Total/live time: 1616.02 1616.02
30 Percent Complete: Total/live time: 2170.02 2170.02
40 Percent Complete: Total/live time: 3460.05 3460.05
50 Percent Complete: Total/live time: 3651.47 3651.47
60 Percent Complete: Total/live time: 5045.96 5045.96
70 Percent Complete: Total/live time: 5045.96 5045.96
80 Percent Complete: Total/live time: 6931.96 6931.96
100 Percent Complete: Total/live time: 6931.96 6931.96
Number of attitude steps used: 19
Number of attitude steps avail: 21189
Mean RA/DEC pixel offset: -0.4473 -2.1003
writing expo file: ad55013000g300170h.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55013000g300170h.evt
ASCAEXPO_V0.9b
reading data file: ad55013000g300270l.evt
reading gti ext: STDGTI
reading cal file: gis3_ano_on_flf_180295.fits
reading inst file: GIS3_REGION256.4_regionmap.tmp
making an inst map...
rebin gis: 1
multiply inst map...
reading att file: ./fa971106_1230.2200
making an exposure map...
Aspect RA/DEC/ROLL : 296.1160 24.1458 102.1860
Mean RA/DEC/ROLL : 296.1204 24.1479 102.1860
Pnt RA/DEC/ROLL : 296.1094 24.1476 102.1860
Image rebin factor : 1
Attitude Records : 33447
GTI intervals : 2
Total GTI (secs) : 127.888
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 95.95 95.95
20 Percent Complete: Total/live time: 95.95 95.95
30 Percent Complete: Total/live time: 127.89 127.89
100 Percent Complete: Total/live time: 127.89 127.89
Number of attitude steps used: 3
Number of attitude steps avail: 1265
Mean RA/DEC pixel offset: -0.4382 -1.4769
writing expo file: ad55013000g300270l.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55013000g300270l.evt
ASCAEXPO_V0.9b
reading data file: ad55013000g300370m.evt
reading gti ext: STDGTI
reading cal file: gis3_ano_on_flf_180295.fits
reading inst file: GIS3_REGION256.4_regionmap.tmp
making an inst map...
rebin gis: 1
multiply inst map...
reading att file: ./fa971106_1230.2200
making an exposure map...
Aspect RA/DEC/ROLL : 296.1160 24.1458 102.1858
Mean RA/DEC/ROLL : 296.1209 24.1488 102.1858
Pnt RA/DEC/ROLL : 296.0914 24.1184 102.1858
Image rebin factor : 1
Attitude Records : 33447
GTI intervals : 4
Total GTI (secs) : 1808.127
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 324.00 324.00
20 Percent Complete: Total/live time: 432.05 432.05
30 Percent Complete: Total/live time: 1712.05 1712.05
40 Percent Complete: Total/live time: 1712.05 1712.05
50 Percent Complete: Total/live time: 1808.13 1808.13
100 Percent Complete: Total/live time: 1808.13 1808.13
Number of attitude steps used: 7
Number of attitude steps avail: 1975
Mean RA/DEC pixel offset: -0.4881 -1.0314
writing expo file: ad55013000g300370m.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55013000g300370m.evt
ASCAEXPO_V0.9b
reading data file: ad55013000s000102h.evt
reading gti ext: STDGTI
reading hp ext: HOT_PIXELS
reading cal file: s0_teldef_ascalin.fits
making an inst map...
SIS AREA DISC ENABL OFF
CHIP: 0 1 2 3
CCD POWER ON/OFF: OFF ON OFF OFF
AREA DISC IN/OUT: OUT OUT IN IN
AREA DISC H START: 6 6 6 316
AREA DISC H STOP: 425 425 200 425
AREA DISC V START: 2 2 2 2
AREA DISC V STOP: 422 422 150 112
reading att file: ./fa971106_1230.2200
making an exposure map...
Aspect RA/DEC/ROLL : 296.1160 24.1458 102.1920
Mean RA/DEC/ROLL : 296.1348 24.1633 102.1920
Pnt RA/DEC/ROLL : 296.0986 24.1343 102.1920
Image rebin factor : 4
Attitude Records : 33447
Hot Pixels : 2
GTI intervals : 14
Total GTI (secs) : 6608.264
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 1392.27 1392.27
20 Percent Complete: Total/live time: 1392.27 1392.27
30 Percent Complete: Total/live time: 2192.26 2192.26
40 Percent Complete: Total/live time: 3504.26 3504.26
50 Percent Complete: Total/live time: 3504.26 3504.26
60 Percent Complete: Total/live time: 4880.26 4880.26
70 Percent Complete: Total/live time: 4880.26 4880.26
80 Percent Complete: Total/live time: 6457.16 6457.16
90 Percent Complete: Total/live time: 6457.16 6457.16
100 Percent Complete: Total/live time: 6608.26 6608.26
Number of attitude steps used: 19
Number of attitude steps avail: 19047
Mean RA/DEC pixel offset: -57.1011 -89.6206
writing expo file: ad55013000s000102h.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55013000s000102h.evt
ASCAEXPO_V0.9b
reading data file: ad55013000s000302m.evt
reading gti ext: STDGTI
reading hp ext: HOT_PIXELS
reading cal file: s0_teldef_ascalin.fits
making an inst map...
SIS AREA DISC ENABL OFF
CHIP: 0 1 2 3
CCD POWER ON/OFF: OFF ON OFF OFF
AREA DISC IN/OUT: OUT OUT IN IN
AREA DISC H START: 6 6 6 316
AREA DISC H STOP: 425 425 200 425
AREA DISC V START: 2 2 2 2
AREA DISC V STOP: 422 422 150 112
reading att file: ./fa971106_1230.2200
making an exposure map...
Aspect RA/DEC/ROLL : 296.1160 24.1458 102.1920
Mean RA/DEC/ROLL : 296.1358 24.1642 102.1920
Pnt RA/DEC/ROLL : 296.0754 24.1018 102.1920
Image rebin factor : 4
Attitude Records : 33447
Hot Pixels : 2
GTI intervals : 8
Total GTI (secs) : 1696.030
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 391.97 391.97
20 Percent Complete: Total/live time: 391.97 391.97
30 Percent Complete: Total/live time: 1595.95 1595.95
40 Percent Complete: Total/live time: 1595.95 1595.95
50 Percent Complete: Total/live time: 1696.03 1696.03
100 Percent Complete: Total/live time: 1696.03 1696.03
Number of attitude steps used: 8
Number of attitude steps avail: 3204
Mean RA/DEC pixel offset: -53.4007 -77.0454
writing expo file: ad55013000s000302m.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55013000s000302m.evt
ASCAEXPO_V0.9b
reading data file: ad55013000s100102h.evt
reading gti ext: STDGTI
reading hp ext: HOT_PIXELS
reading cal file: s1_teldef_ascalin.fits
making an inst map...
SIS AREA DISC ENABL OFF
CHIP: 0 1 2 3
CCD POWER ON/OFF: OFF ON OFF OFF
AREA DISC IN/OUT: OUT OUT OUT OUT
AREA DISC H START: 6 6 6 6
AREA DISC H STOP: 425 425 425 425
AREA DISC V START: 2 2 2 2
AREA DISC V STOP: 422 422 422 422
reading att file: ./fa971106_1230.2200
making an exposure map...
Aspect RA/DEC/ROLL : 296.1160 24.1458 102.1849
Mean RA/DEC/ROLL : 296.1175 24.1609 102.1849
Pnt RA/DEC/ROLL : 296.1158 24.1367 102.1849
Image rebin factor : 4
Attitude Records : 33447
Hot Pixels : 11
GTI intervals : 14
Total GTI (secs) : 6584.264
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 1368.27 1368.27
20 Percent Complete: Total/live time: 1504.74 1504.74
30 Percent Complete: Total/live time: 2172.26 2172.26
40 Percent Complete: Total/live time: 3484.26 3484.26
50 Percent Complete: Total/live time: 3484.26 3484.26
60 Percent Complete: Total/live time: 4860.26 4860.26
70 Percent Complete: Total/live time: 4860.26 4860.26
80 Percent Complete: Total/live time: 6437.16 6437.16
90 Percent Complete: Total/live time: 6437.16 6437.16
100 Percent Complete: Total/live time: 6584.26 6584.26
Number of attitude steps used: 19
Number of attitude steps avail: 19047
Mean RA/DEC pixel offset: -61.3114 -21.5511
writing expo file: ad55013000s100102h.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55013000s100102h.evt
ASCAEXPO_V0.9b
reading data file: ad55013000s100202m.evt
reading gti ext: STDGTI
reading hp ext: HOT_PIXELS
reading cal file: s1_teldef_ascalin.fits
making an inst map...
SIS AREA DISC ENABL OFF
CHIP: 0 1 2 3
CCD POWER ON/OFF: OFF ON OFF OFF
AREA DISC IN/OUT: OUT OUT OUT OUT
AREA DISC H START: 6 6 6 6
AREA DISC H STOP: 425 425 425 425
AREA DISC V START: 2 2 2 2
AREA DISC V STOP: 422 422 422 422
reading att file: ./fa971106_1230.2200
making an exposure map...
Aspect RA/DEC/ROLL : 296.1160 24.1458 102.1849
Mean RA/DEC/ROLL : 296.1186 24.1618 102.1849
Pnt RA/DEC/ROLL : 296.0926 24.1042 102.1849
Image rebin factor : 4
Attitude Records : 33447
Hot Pixels : 9
GTI intervals : 10
Total GTI (secs) : 1632.030
Max attitude excursion (arcsecs) : 5.000
0 Percent Complete: Total/live time: 0.00 0.00
10 Percent Complete: Total/live time: 359.97 359.97
20 Percent Complete: Total/live time: 359.97 359.97
30 Percent Complete: Total/live time: 1531.95 1531.95
40 Percent Complete: Total/live time: 1531.95 1531.95
50 Percent Complete: Total/live time: 1632.03 1632.03
100 Percent Complete: Total/live time: 1632.03 1632.03
Number of attitude steps used: 8
Number of attitude steps avail: 2644
Mean RA/DEC pixel offset: -57.0150 -13.7208
writing expo file: ad55013000s100202m.expo
closing attitude file...
closing data file...
-> Generating low and high energy images for ad55013000s100202m.evtad55013000s000102h.expo ad55013000s000302m.expo ad55013000s100102h.expo ad55013000s100202m.expo-> Summing the following images to produce ad55013000sis32002_all.totsky
ad55013000s000102h.img ad55013000s000302m.img ad55013000s100102h.img ad55013000s100202m.img-> Summing the following images to produce ad55013000sis32002_lo.totsky
ad55013000s000102h_lo.img ad55013000s000302m_lo.img ad55013000s100102h_lo.img ad55013000s100202m_lo.img-> Summing the following images to produce ad55013000sis32002_hi.totsky
ad55013000s000102h_hi.img ad55013000s000302m_hi.img ad55013000s100102h_hi.img ad55013000s100202m_hi.img-> Running XIMAGE to create ad55013000sis32002.gif
No of detectors read in: 20 ![1]XIMAGE> read/fits ad55013000sis32002_all.totsky Reading an image Telescope ASCA SIS0 Image display size = 320 Done, closing file Largest, Smallest 2.00000 0. Bscale, Bzero from file 1.0000000000000 0. After internal scaling Bscale and Bzero 1.0000000000000 0. Image level, max: 2 min: 0 ![2]XIMAGE> read/exp_map ad55013000sis32002.totexpo Reading an image Telescope ASCA SIS0 Image display size = 320 Done, closing file Largest, Smallest 138.405 0. Bscale, Bzero from file 1.0000000000000 0. After internal scaling Bscale and Bzero 1.0000000000000 0. Image level, max: 138 min: 0 ![3]XIMAGE> smooth ![4]XIMAGE> cpd /ppm ![5]XIMAGE> cey 2000 ![6]XIMAGE> title "RIDGE_EDGE4" ![7]XIMAGE> title/lower "ASCA SIS0,SIS1 November 6, 1997 Exposure: 16520.5 s" ![8]XIMAGE> disp/correct/noframe Displaying image The image is exposure corrected Min = 0 max = 32767 ![9]XIMAGE> grid ![10]XIMAGE> scale scal_f, min_inten 1.00000 0. i,inten,mm,pp 1 0. 0 0 i,inten,mm,pp 2 4.00000 40 -1 i,inten,mm,pp 3 8.00000 80 -1 i,inten,mm,pp 4 24.0000 24 0 ![11]XIMAGE> exit-> Summing gis images
ad55013000g200170h.expo ad55013000g200270l.expo ad55013000g200370m.expo ad55013000g300170h.expo ad55013000g300270l.expo ad55013000g300370m.expo-> Summing the following images to produce ad55013000gis25670_all.totsky
ad55013000g200170h.img ad55013000g200270l.img ad55013000g200370m.img ad55013000g300170h.img ad55013000g300270l.img ad55013000g300370m.img-> Summing the following images to produce ad55013000gis25670_lo.totsky
ad55013000g200170h_lo.img ad55013000g200270l_lo.img ad55013000g200370m_lo.img ad55013000g300170h_lo.img ad55013000g300270l_lo.img ad55013000g300370m_lo.img-> Summing the following images to produce ad55013000gis25670_hi.totsky
ad55013000g200170h_hi.img ad55013000g200270l_hi.img ad55013000g200370m_hi.img ad55013000g300170h_hi.img ad55013000g300270l_hi.img ad55013000g300370m_hi.img-> Running XIMAGE to create ad55013000gis25670.gif
No of detectors read in: 20 ![1]XIMAGE> read/fits ad55013000gis25670_all.totsky Reading an image Telescope ASCA GIS2 Image display size = 256 Done, closing file Largest, Smallest 4.00000 0. Bscale, Bzero from file 1.0000000000000 0. After internal scaling Bscale and Bzero 1.0000000000000 0. Image level, max: 4 min: 0 ![2]XIMAGE> read/exp_map ad55013000gis25670.totexpo Reading an image Telescope ASCA GIS2 Image display size = 256 Done, closing file Largest, Smallest 295.699 0. Bscale, Bzero from file 1.0000000000000 0. After internal scaling Bscale and Bzero 1.0000000000000 0. Image level, max: 295 min: 0 ![3]XIMAGE> smooth ![4]XIMAGE> cpd /ppm ![5]XIMAGE> cey 2000 ![6]XIMAGE> title "RIDGE_EDGE4" ![7]XIMAGE> title/lower "ASCA GIS2,GIS3 November 6, 1997 Exposure: 17741.9 s" ![8]XIMAGE> disp/correct/noframe Displaying image The image is exposure corrected Min = 0 max = 32767 ![9]XIMAGE> grid ![10]XIMAGE> scale scal_f, min_inten 1.00000 0. i,inten,mm,pp 1 0. 0 0 i,inten,mm,pp 2 4.00000 40 -1 i,inten,mm,pp 3 8.00000 80 -1 i,inten,mm,pp 4 49.0000 49 0 ![11]XIMAGE> exit
-> Standard Output From STOOL colorpic:
color plane 0 color plane 1 color plane 2 writing image image written-> Creating fits catalog of sources: ad55013000gis25670.src
226 128 1.42733e-05 204 28 4.16013-> Smoothing ad55013000sis32002_hi.totsky with ad55013000sis32002.totexpo
226 128 38 T-> Sources with radius >= 2
226 128 38 T-> Standard Output From STOOL colorpic:
color plane 0 color plane 1 color plane 2 writing image image written-> Creating fits catalog of sources: ad55013000sis32002.src
The sum of the selected column is 17745.000 The mean of the selected column is 682.50000 The standard deviation of the selected column is 14.824979 The minimum of selected column is 653.00000 The maximum of selected column is 711.00000 The number of points used in calculation is 26-> Standard Output From FTOOL fstatistic:
The sum of the selected column is 23767.000 The mean of the selected column is 914.11538 The standard deviation of the selected column is 22.163622 The minimum of selected column is 877.00000 The maximum of selected column is 951.00000 The number of points used in calculation is 26-> Removing empty region file ad55013000s032002_0.reg
1 ad55013000s000102h.evt 428 1 ad55013000s000302m.evt 428-> Standard Output From STOOL group_event_files:
1 ad55013000s000112h.evt 466 1 ad55013000s000312m.evt 466-> Standard Output From STOOL group_event_files:
1 ad55013000s100102h.evt 502 1 ad55013000s100202m.evt 502-> Fetching SIS1_NOTCHIP0.1
ad55013000s100102h.evt ad55013000s100202m.evt-> Deleting ad55013000s110102_1.pi since it has 194 events
1 ad55013000s100112h.evt 513 1 ad55013000s100212m.evt 513-> SIS1_NOTCHIP0.1 already present in current directory
ad55013000s100112h.evt ad55013000s100212m.evt-> Deleting ad55013000s110212_1.pi since it has 196 events
1 ad55013000g200170h.evt 3099 1 ad55013000g200270l.evt 3099 1 ad55013000g200370m.evt 3099-> GIS2_REGION256.4 already present in current directory
ad55013000g200170h.evt ad55013000g200270l.evt ad55013000g200370m.evt-> Correcting ad55013000g210170_0.pi for dead time
... read all the files from deadlist.tmp-> Grouping ad55013000g210170_0.pi to 40 counts/bin
------------------------- MANDATORY KEYWORDS/VALUES ------------------------- -------------------------------------------------------------------- -------------------------------------------------------------------- EXTNAME - SPECTRUM Name of this BINTABLE TELESCOP - ASCA Mission/Satellite name INSTRUME - GIS2 Instrument/Detector FILTER - NONE Instrument filter in use EXPOSURE - 8874.0 Integration time (in secs) of PHA data AREASCAL - 1.0000 Area scaling factor BACKSCAL - 0.36888 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 XFLT0001 - none XSPEC selection filter POISSERR - TRUE Whether Poissonian errors apply CHANTYPE - PI Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 1024 No. of legal detector channels NCHAN - 1024 No. of detector channels in dataset PHAVERSN - 1.1.0 OGIP FITS version number STAT_ERR - FALSE Statistical Error SYS_ERR - TRUE Fractional Systematic Error QUALITY - TRUE Quality Flag GROUPING - TRUE Grouping Flag -------------------------------------------------------------------- -------------------------------------------------------------------- ... ... -------- ... GROUPING ... -------- ... --------------------------------------------- ... Channel Grouping (Channel-Channel) : ... 0 - 23 are grouped by a factor 24 ... 24 - 33 are grouped by a factor 5 ... 34 - 53 are grouped by a factor 10 ... 54 - 62 are grouped by a factor 9 ... 63 - 67 are grouped by a factor 5 ... 68 - 73 are grouped by a factor 6 ... 74 - 83 are grouped by a factor 5 ... 84 - 89 are grouped by a factor 6 ... 90 - 97 are grouped by a factor 4 ... 98 - 102 are grouped by a factor 5 ... 103 - 110 are grouped by a factor 4 ... 111 - 113 are grouped by a factor 3 ... 114 - 118 are grouped by a factor 5 ... 119 - 142 are grouped by a factor 4 ... 143 - 147 are grouped by a factor 5 ... 148 - 151 are grouped by a factor 4 ... 152 - 154 are grouped by a factor 3 ... 155 - 162 are grouped by a factor 4 ... 163 - 168 are grouped by a factor 6 ... 169 - 178 are grouped by a factor 5 ... 179 - 184 are grouped by a factor 6 ... 185 - 198 are grouped by a factor 7 ... 199 - 206 are grouped by a factor 8 ... 207 - 212 are grouped by a factor 6 ... 213 - 220 are grouped by a factor 8 ... 221 - 227 are grouped by a factor 7 ... 228 - 235 are grouped by a factor 8 ... 236 - 244 are grouped by a factor 9 ... 245 - 252 are grouped by a factor 8 ... 253 - 264 are grouped by a factor 12 ... 265 - 274 are grouped by a factor 10 ... 275 - 286 are grouped by a factor 12 ... 287 - 295 are grouped by a factor 9 ... 296 - 306 are grouped by a factor 11 ... 307 - 319 are grouped by a factor 13 ... 320 - 334 are grouped by a factor 15 ... 335 - 351 are grouped by a factor 17 ... 352 - 360 are grouped by a factor 9 ... 361 - 374 are grouped by a factor 14 ... 375 - 390 are grouped by a factor 16 ... 391 - 404 are grouped by a factor 14 ... 405 - 419 are grouped by a factor 15 ... 420 - 455 are grouped by a factor 18 ... 456 - 477 are grouped by a factor 22 ... 478 - 502 are grouped by a factor 25 ... 503 - 524 are grouped by a factor 22 ... 525 - 552 are grouped by a factor 28 ... 553 - 575 are grouped by a factor 23 ... 576 - 610 are grouped by a factor 35 ... 611 - 658 are grouped by a factor 48 ... 659 - 691 are grouped by a factor 33 ... 692 - 728 are grouped by a factor 37 ... 729 - 782 are grouped by a factor 54 ... 783 - 866 are grouped by a factor 84 ... 867 - 932 are grouped by a factor 66 ... 933 - 1006 are grouped by a factor 74 ... 1007 - 1023 of undefined grouping (Channel quality=bad) ... --------------------------------------------- ... ...... exiting, changes written to file : ad55013000g210170_0.pi ** grppha 2.8.1 completed successfully-> Fetching gis2v4_0.rmf
ASCAARF vers 2.81 28 Aug 1998.
Input WMAP array has size 177 by 178 bins
expanded to 256 by 256 bins
First WMAP bin is at detector pixel 1 1
1 detector pixels per WMAP bin
WMAP bin size is 0.25000 mm
0.24555 arcmin
Selected region size is 1458.0 arcmin^2
Optical axis is detector pixel 133.00 130.96
201 energies from RMF file
Effective area fudge applied
Arf filter applied
Total counts in region = 3.09900E+03
Weighted mean angle from optical axis = 14.011 arcmin
-> Standard Output From STOOL group_event_files:1 ad55013000g300170h.evt 3124 1 ad55013000g300270l.evt 3124 1 ad55013000g300370m.evt 3124-> GIS3_REGION256.4 already present in current directory
ad55013000g300170h.evt ad55013000g300270l.evt ad55013000g300370m.evt-> Correcting ad55013000g310170_0.pi for dead time
... read all the files from deadlist.tmp-> Grouping ad55013000g310170_0.pi to 40 counts/bin
------------------------- MANDATORY KEYWORDS/VALUES ------------------------- -------------------------------------------------------------------- -------------------------------------------------------------------- EXTNAME - SPECTRUM Name of this BINTABLE TELESCOP - ASCA Mission/Satellite name INSTRUME - GIS3 Instrument/Detector FILTER - NONE Instrument filter in use EXPOSURE - 8868.0 Integration time (in secs) of PHA data AREASCAL - 1.0000 Area scaling factor BACKSCAL - 0.36783 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 XFLT0001 - none XSPEC selection filter POISSERR - TRUE Whether Poissonian errors apply CHANTYPE - PI Whether channels have been corrected TLMIN1 - 0 First legal Detector channel DETCHANS - 1024 No. of legal detector channels NCHAN - 1024 No. of detector channels in dataset PHAVERSN - 1.1.0 OGIP FITS version number STAT_ERR - FALSE Statistical Error SYS_ERR - TRUE Fractional Systematic Error QUALITY - TRUE Quality Flag GROUPING - TRUE Grouping Flag -------------------------------------------------------------------- -------------------------------------------------------------------- ... ... -------- ... GROUPING ... -------- ... --------------------------------------------- ... Channel Grouping (Channel-Channel) : ... 0 - 23 are grouped by a factor 24 ... 24 - 27 are grouped by a factor 4 ... 28 - 33 are grouped by a factor 6 ... 34 - 43 are grouped by a factor 10 ... 44 - 50 are grouped by a factor 7 ... 51 - 59 are grouped by a factor 9 ... 60 - 64 are grouped by a factor 5 ... 65 - 71 are grouped by a factor 7 ... 72 - 77 are grouped by a factor 6 ... 78 - 80 are grouped by a factor 3 ... 81 - 85 are grouped by a factor 5 ... 86 - 89 are grouped by a factor 4 ... 90 - 94 are grouped by a factor 5 ... 95 - 100 are grouped by a factor 6 ... 101 - 103 are grouped by a factor 3 ... 104 - 108 are grouped by a factor 5 ... 109 - 120 are grouped by a factor 4 ... 121 - 130 are grouped by a factor 5 ... 131 - 134 are grouped by a factor 4 ... 135 - 137 are grouped by a factor 3 ... 138 - 141 are grouped by a factor 4 ... 142 - 144 are grouped by a factor 3 ... 145 - 148 are grouped by a factor 4 ... 149 - 151 are grouped by a factor 3 ... 152 - 171 are grouped by a factor 4 ... 172 - 176 are grouped by a factor 5 ... 177 - 180 are grouped by a factor 4 ... 181 - 186 are grouped by a factor 6 ... 187 - 193 are grouped by a factor 7 ... 194 - 205 are grouped by a factor 6 ... 206 - 210 are grouped by a factor 5 ... 211 - 217 are grouped by a factor 7 ... 218 - 237 are grouped by a factor 10 ... 238 - 245 are grouped by a factor 8 ... 246 - 263 are grouped by a factor 9 ... 264 - 274 are grouped by a factor 11 ... 275 - 287 are grouped by a factor 13 ... 288 - 296 are grouped by a factor 9 ... 297 - 308 are grouped by a factor 12 ... 309 - 318 are grouped by a factor 10 ... 319 - 331 are grouped by a factor 13 ... 332 - 345 are grouped by a factor 14 ... 346 - 363 are grouped by a factor 18 ... 364 - 391 are grouped by a factor 14 ... 392 - 429 are grouped by a factor 19 ... 430 - 469 are grouped by a factor 20 ... 470 - 491 are grouped by a factor 22 ... 492 - 514 are grouped by a factor 23 ... 515 - 540 are grouped by a factor 26 ... 541 - 569 are grouped by a factor 29 ... 570 - 603 are grouped by a factor 34 ... 604 - 635 are grouped by a factor 32 ... 636 - 668 are grouped by a factor 33 ... 669 - 698 are grouped by a factor 30 ... 699 - 727 are grouped by a factor 29 ... 728 - 778 are grouped by a factor 51 ... 779 - 834 are grouped by a factor 56 ... 835 - 897 are grouped by a factor 63 ... 898 - 979 are grouped by a factor 82 ... 980 - 1023 of undefined grouping (Channel quality=bad) ... --------------------------------------------- ... ...... exiting, changes written to file : ad55013000g310170_0.pi ** grppha 2.8.1 completed successfully-> Fetching gis3v4_0.rmf
ASCAARF vers 2.81 28 Aug 1998.
Input WMAP array has size 177 by 178 bins
expanded to 256 by 256 bins
First WMAP bin is at detector pixel 1 1
1 detector pixels per WMAP bin
WMAP bin size is 0.25000 mm
0.24555 arcmin
Selected region size is 1453.8 arcmin^2
Optical axis is detector pixel 119.36 134.44
201 energies from RMF file
Effective area fudge applied
Arf filter applied
Total counts in region = 3.12400E+03
Weighted mean angle from optical axis = 14.135 arcmin
-> Plotting ad55013000g210170_0_pi.ps from ad55013000g210170_0.pi
XSPEC 9.01 17:11:39 29-Dec-99
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
!XSPEC> data ad55013000g210170_0.pi
Net count rate (cts/s) for file 1 0.3492 +/- 6.2874E-03
1 data set is in use
!XSPEC> setplot energy
!XSPEC> ignore bad
!XSPEC> iplot
!PLT> log y on
!PLT> rescale y
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
XSPEC: quit
-> Plotting ad55013000g310170_0_pi.ps from ad55013000g310170_0.pi
XSPEC 9.01 17:11:50 29-Dec-99
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
!XSPEC> data ad55013000g310170_0.pi
Net count rate (cts/s) for file 1 0.3523 +/- 6.3330E-03
1 data set is in use
!XSPEC> setplot energy
!XSPEC> ignore bad
!XSPEC> iplot
!PLT> log y on
!PLT> rescale y
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
XSPEC: quit
Type "help" for information
[1]xronos> Current User Interface is ; command driven
[2]xronos> Enter up to 50 input filenames and options for series 1 (or rtn)
Ser. A filename 1 +options[.rbf]=> ad55013000g200070_0.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ RIDGE_EDGE4 Start Time (d) .... 10758 12:45:07.059
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 10758 21:56:20.952
No. of Rows ....... 65 Bin Time (s) ...... 143.2
Right Ascension ... 2.9612E+02 Internal time sys.. Converted to TJD
Declination ....... 2.4146E+01 Experiment ........ ASCA GIS2
Filter ............ NONE
Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - No
Selected Columns: 1 - Time; 2 - Y-axis; 3 - Y-error;
File contains binned data.
Ser. A filename 2 +options[.rbf]=>
Enter up to 50 input filenames and options for series 2 (or rtn)
Ser. B filename 1 +options[.rbf]=>
Enter up to 50 input filenames and options for series 3 (or rtn)
Ser. C filename 1 +options[.rbf]=>
[3]xronos>
Maximum of 1 Intvs. with 232 Newbins of 143.175 (s)
Intv 1 Start10758 12:46:18
Ser.1 Avg 0.3477 Chisq 64.83 Var 0.2739E-02 Newbs. 65
Min 0.2305 Max 0.4862 expVar 0.2746E-02 Bins 65
Results from Statistical Analysis
Newbin Integration Time (s).. 143.17
Interval Duration (s)........ 32930.
No. of Newbins .............. 65
Average (c/s) ............... 0.34774 +/- 0.65E-02
Standard Deviation (c/s)..... 0.52332E-01
Minimum (c/s)................ 0.23049
Maximum (c/s)................ 0.48615
Variance ((c/s)**2).......... 0.27386E-02 +/- 0.48E-03
Expected Variance ((c/s)**2). 0.27456E-02 +/- 0.49E-03
Third Moment ((c/s)**3)......-0.15093E-05
Average Deviation (c/s)...... 0.42952E-01
Skewness.....................-0.10531E-01 +/- 0.30
Kurtosis.....................-0.42782 +/- 0.61
RMS fractional variation....< 0.11836 (3 sigma)
Chi-Square................... 64.834 dof 64
Chi-Square Prob of constancy. 0.44730 (0 means < 1.e-38)
Kolm.-Smir. Prob of constancy 0.21288E-01 (0 means < 1.e-38)
[4]xronos> [5]xronos>
Maximum of 1 Intvs. with 232 Newbins of 143.175 (s)
Intv 1 Start10758 12:46:18
Ser.1 Avg 0.3477 Chisq 64.83 Var 0.2739E-02 Newbs. 65
Min 0.2305 Max 0.4862 expVar 0.2746E-02 Bins 65
Light curve ready !
Frme 1 Written to output file : xronos.qlc1
PLT> LA File ad55013000g200070_0.lc
PLT> hard /ps
PLT> [6]xronos>
-> TIMEDEL=6.2500000000E-02 for ad55013000g300170h.evt
Type "help" for information
[1]xronos> Current User Interface is ; command driven
[2]xronos> Enter up to 50 input filenames and options for series 1 (or rtn)
Ser. A filename 1 +options[.rbf]=> ad55013000g300070_0.lc
Selected FITS extensions: 1 - RATE TABLE;
Source ............ RIDGE_EDGE4 Start Time (d) .... 10758 12:45:07.059
FITS Extension .... 1 - `RATE ` Stop Time (d) ..... 10758 21:56:20.952
No. of Rows ....... 62 Bin Time (s) ...... 141.9
Right Ascension ... 2.9612E+02 Internal time sys.. Converted to TJD
Declination ....... 2.4146E+01 Experiment ........ ASCA GIS3
Filter ............ NONE
Corrections applied: Vignetting - No ; Deadtime - No ; Bkgd - No ; Clock - No
Selected Columns: 1 - Time; 2 - Y-axis; 3 - Y-error;
File contains binned data.
Ser. A filename 2 +options[.rbf]=>
Enter up to 50 input filenames and options for series 2 (or rtn)
Ser. B filename 1 +options[.rbf]=>
Enter up to 50 input filenames and options for series 3 (or rtn)
Ser. C filename 1 +options[.rbf]=>
[3]xronos>
Maximum of 1 Intvs. with 234 Newbins of 141.933 (s)
Intv 1 Start10758 12:46:18
Ser.1 Avg 0.3510 Chisq 89.62 Var 0.3824E-02 Newbs. 62
Min 0.2395 Max 0.5150 expVar 0.2645E-02 Bins 62
Results from Statistical Analysis
Newbin Integration Time (s).. 141.93
Interval Duration (s)........ 32928.
No. of Newbins .............. 62
Average (c/s) ............... 0.35096 +/- 0.66E-02
Standard Deviation (c/s)..... 0.61836E-01
Minimum (c/s)................ 0.23955
Maximum (c/s)................ 0.51496
Variance ((c/s)**2).......... 0.38237E-02 +/- 0.69E-03
Expected Variance ((c/s)**2). 0.26453E-02 +/- 0.48E-03
Third Moment ((c/s)**3)...... 0.13482E-03
Average Deviation (c/s)...... 0.49856E-01
Skewness..................... 0.57020 +/- 0.31
Kurtosis.....................-0.26229 +/- 0.62
RMS fractional variation....< 0.63135E-01 (3 sigma)
Chi-Square................... 89.618 dof 61
Chi-Square Prob of constancy. 0.99507E-02 (0 means < 1.e-38)
Kolm.-Smir. Prob of constancy 0.15010 (0 means < 1.e-38)
[4]xronos> [5]xronos>
Maximum of 1 Intvs. with 234 Newbins of 141.933 (s)
Intv 1 Start10758 12:46:18
Ser.1 Avg 0.3510 Chisq 89.62 Var 0.3824E-02 Newbs. 62
Min 0.2395 Max 0.5150 expVar 0.2645E-02 Bins 62
Light curve ready !
Frme 1 Written to output file : xronos.qlc1
PLT> LA File ad55013000g300070_0.lc
PLT> hard /ps
PLT> [6]xronos>
-> Merging GTIs from the following files:ad55013000g200170h.evt[2] ad55013000g200270l.evt[2] ad55013000g200370m.evt[2]-> Making L1 light curve of ft971106_1230_2200G2HK.fits with irate=HIGH
ghkcurve: ALLGTI found in input HK file, will be applied to data. ghkcurve: 14077 output records from 14094 good input G2_L1 records.-> Making L1 light curve of ft971106_1230_2200G2HK.fits with irate=HI+MED
ghkcurve: ALLGTI found in input HK file, will be applied to data. ghkcurve: 7907 output records from 15756 good input G2_L1 records.-> Merging GTIs from the following files:
ad55013000g300170h.evt[2] ad55013000g300270l.evt[2] ad55013000g300370m.evt[2]-> Making L1 light curve of ft971106_1230_2200G3HK.fits with irate=HIGH
ghkcurve: ALLGTI found in input HK file, will be applied to data. ghkcurve: 13485 output records from 13502 good input G3_L1 records.-> Making L1 light curve of ft971106_1230_2200G3HK.fits with irate=HI+MED
ghkcurve: ALLGTI found in input HK file, will be applied to data. ghkcurve: 7708 output records from 15125 good input G3_L1 records.
*** tlmFrm Version 1.1 (1997-08-25) ***
total number of superframes: 8423
frame data: 152974559.05428 ---> 152974703.053829
S1, C3, 2 ccd mode; Output File = fr971106_1230.2200_s1c3m2a.fits
frame data: 152974723.053766 ---> 152974867.053313
S1, C0, 2 ccd mode; Output File = fr971106_1230.2200_s1c0m2a.fits
frame data: 152974887.053249 ---> 152975031.052794
S1, C3, 2 ccd mode; Output File = fr971106_1230.2200_s1c3m2b.fits
frame data: 152975051.052731 ---> 152975195.052275
S1, C0, 2 ccd mode; Output File = fr971106_1230.2200_s1c0m2b.fits
frame data: 152980331.036045 ---> 152980475.035592
S0, C0, 4 ccd mode; Output File = fr971106_1230.2200_s0c0m4a.fits
frame data: 152980495.035529 ---> 152980639.035074
S0, C1, 4 ccd mode; Output File = fr971106_1230.2200_s0c1m4a.fits
frame data: 152980659.03501 ---> 152980803.034555
S0, C2, 4 ccd mode; Output File = fr971106_1230.2200_s0c2m4a.fits
frame data: 152980823.034491 ---> 152980967.034033
S0, C3, 4 ccd mode; Output File = fr971106_1230.2200_s0c3m4a.fits
Total of 8 sets of frame data are extracted.
-> Processing fr971106_1230.2200_s0c0m4a.fitsDark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971106_1230.2200_s0c0m4a.fits Output zero level image : rdd.tmp Bias level = 336-> Adding keywords to header of fr971106_1230.2200_s0c0m4a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971106_1230.2200_s0c1m4a.fits Output zero level image : rdd.tmp Bias level = 298-> Adding keywords to header of fr971106_1230.2200_s0c1m4a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971106_1230.2200_s0c2m4a.fits Output zero level image : rdd.tmp Bias level = 334-> Adding keywords to header of fr971106_1230.2200_s0c2m4a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971106_1230.2200_s0c3m4a.fits Output zero level image : rdd.tmp Bias level = 314-> Adding keywords to header of fr971106_1230.2200_s0c3m4a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971106_1230.2200_s1c0m2a.fits Output zero level image : rdd.tmp Bias level = 226-> Adding keywords to header of fr971106_1230.2200_s1c0m2a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971106_1230.2200_s1c0m2b.fits Output zero level image : rdd.tmp Bias level = 226-> Adding keywords to header of fr971106_1230.2200_s1c0m2b.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971106_1230.2200_s1c3m2a.fits Output zero level image : rdd.tmp Bias level = 222-> Adding keywords to header of fr971106_1230.2200_s1c3m2a.fits
Dark upper (ADU) : 40 Dark lower (ADU) : -40 Input frame data : fr971106_1230.2200_s1c3m2b.fits Output zero level image : rdd.tmp Bias level = 222-> Adding keywords to header of fr971106_1230.2200_s1c3m2b.fits
SUNSHINE==0 && T_DY_NT>64 && T_SAA>64 && SAA==0 && COR>6 && (ELV>10 || ELV<10 )-> Extracting GTIs from ft971106_1230_2200.mkf
1 ad55013000g200170h.unf 19130 1 ad55013000g200270l.unf 19130 1 ad55013000g200370m.unf 19130-> Fetching GIS2_CALSRC256.2
XSPEC 9.01 17:29:18 29-Dec-99
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
!XSPEC> query yes
Querying disabled - assuming answer is yes
!XSPEC> data ad55013000g220170.cal
Net count rate (cts/s) for file 1 0.1471 +/- 2.6015E-03
1 data set is in use
!XSPEC> ignore bad
!XSPEC> ignore **-4.0
!XSPEC> ignore 8.0-**
!XSPEC> model const/b + gauss/b + gauss/b
Background components must be from the additive model list
mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
Input parameter value, delta, min, bot, top, and max values for ...
Mod parameter 1 of component 1 constant factor
1.000 1.0000E-02 0. 0. 1.0000E+10 1.0000E+10
!
Mod parameter 2 of component 2 gaussian LineE
6.500 5.0000E-02 0. 0. 1.0000E+06 1.0000E+06
! 5.9
Mod parameter 3 of component 2 gaussian Sigma
0.1000 5.0000E-02 0. 0. 10.00 20.00
! 0.0
Mod parameter 4 of component 2 gaussian norm
1.000 1.0000E-02 0. 0. 1.0000E+24 1.0000E+24
!
Mod parameter 5 of component 3 gaussian LineE
6.500 5.0000E-02 0. 0. 1.0000E+06 1.0000E+06
! 6.5
Mod parameter 6 of component 3 gaussian Sigma
0.1000 5.0000E-02 0. 0. 10.00 20.00
! 0.0
Mod parameter 7 of component 3 gaussian norm
1.000 1.0000E-02 0. 0. 1.0000E+24 1.0000E+24
!
---------------------------------------------------------------------------
---------------------------------------------------------------------------
mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
Model Fit Model Component Parameter Value
par par comp
1 1 1 constant factor 1.00000 +/- 0.
2 2 2 gaussian/b LineE 5.90000 +/- 0.
3 3 2 gaussian/b Sigma 0. +/- 0.
4 4 2 gaussian/b norm 1.00000 +/- 0.
5 5 3 gaussian/b LineE 6.50000 +/- 0.
6 6 3 gaussian/b Sigma 0. +/- 0.
7 7 3 gaussian/b norm 1.00000 +/- 0.
---------------------------------------------------------------------------
---------------------------------------------------------------------------
7 variable fit parameters
Chi-Squared = 9.8617E+05 using 84 PHA bins.
Reduced chi-squared = 1.2807E+04
!XSPEC> newpar 5 = 2 1.101005
6 variable fit parameters
Chi-Squared = 9.8037E+05 using 84 PHA bins.
Reduced chi-squared = 1.2569E+04
!XSPEC> newpar 6 = 3 1.049288
5 variable fit parameters
Chi-Squared = 9.8037E+05 using 84 PHA bins.
Reduced chi-squared = 1.2410E+04
!XSPEC> renorm
Chi-Squared = 744.3 using 84 PHA bins.
Reduced chi-squared = 9.422
!XSPEC> fit
Chi-Squared Lvl Fit param # 1 2 3 4
5
Due to zero model norms
fit parameter 1 is temporarily frozen
596.00 0 1.000 5.895 9.9528E-02 4.3136E-02
3.8879E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
310.90 0 1.000 5.879 0.1504 5.9334E-02
3.4383E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
157.72 -1 1.000 5.938 0.1761 8.1715E-02
2.3271E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
134.16 -2 1.000 5.991 0.1980 9.4608E-02
1.4479E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
131.54 -3 1.000 5.973 0.1826 9.1551E-02
1.7423E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
131.30 -4 1.000 5.978 0.1850 9.2560E-02
1.6398E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
131.25 -5 1.000 5.976 0.1834 9.2227E-02
1.6726E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
131.25 -1 1.000 5.977 0.1835 9.2292E-02
1.6660E-02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
Model Fit Model Component Parameter Value
par par comp
1 1 1 constant factor 1.00000 +/- -1.0000
2 2 2 gaussian/b LineE 5.97662 +/- 0.10471E-01
3 3 2 gaussian/b Sigma 0.183542 +/- 0.11390E-01
4 4 2 gaussian/b norm 9.229191E-02 +/- 0.26459E-02
5 2 3 gaussian/b LineE 6.58029 = par 2 * 1.1010
6 3 3 gaussian/b Sigma 0.192588 = par 3 * 1.0493
7 5 3 gaussian/b norm 1.665990E-02 +/- 0.18515E-02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 131.3 using 84 PHA bins.
Reduced chi-squared = 1.661
!XSPEC> setplot energy
!XSPEC> iplot data
!PLT> label top GIS2 Calibration Source, should peak near 5.9 keV
!PLT> log x off
!PLT> rescale x 4 8
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
XSPEC: quit
-> Calibration source ad55013000g220170.cal peaks at 5.97662 +/- 0.010471 keV1 ad55013000g300170h.unf 17610 1 ad55013000g300270l.unf 17610 1 ad55013000g300370m.unf 17610-> Fetching GIS3_CALSRC256.2
XSPEC 9.01 17:30:06 29-Dec-99
Plot device not set, use "cpd" to set it
Type "help" or "?" for further information
!XSPEC> query yes
Querying disabled - assuming answer is yes
!XSPEC> data ad55013000g320170.cal
Net count rate (cts/s) for file 1 0.1336 +/- 2.4883E-03
1 data set is in use
!XSPEC> ignore bad
!XSPEC> ignore **-4.0
!XSPEC> ignore 8.0-**
!XSPEC> model const/b + gauss/b + gauss/b
Background components must be from the additive model list
mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
Input parameter value, delta, min, bot, top, and max values for ...
Mod parameter 1 of component 1 constant factor
1.000 1.0000E-02 0. 0. 1.0000E+10 1.0000E+10
!
Mod parameter 2 of component 2 gaussian LineE
6.500 5.0000E-02 0. 0. 1.0000E+06 1.0000E+06
! 5.9
Mod parameter 3 of component 2 gaussian Sigma
0.1000 5.0000E-02 0. 0. 10.00 20.00
! 0.0
Mod parameter 4 of component 2 gaussian norm
1.000 1.0000E-02 0. 0. 1.0000E+24 1.0000E+24
!
Mod parameter 5 of component 3 gaussian LineE
6.500 5.0000E-02 0. 0. 1.0000E+06 1.0000E+06
! 6.5
Mod parameter 6 of component 3 gaussian Sigma
0.1000 5.0000E-02 0. 0. 10.00 20.00
! 0.0
Mod parameter 7 of component 3 gaussian norm
1.000 1.0000E-02 0. 0. 1.0000E+24 1.0000E+24
!
---------------------------------------------------------------------------
---------------------------------------------------------------------------
mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
Model Fit Model Component Parameter Value
par par comp
1 1 1 constant factor 1.00000 +/- 0.
2 2 2 gaussian/b LineE 5.90000 +/- 0.
3 3 2 gaussian/b Sigma 0. +/- 0.
4 4 2 gaussian/b norm 1.00000 +/- 0.
5 5 3 gaussian/b LineE 6.50000 +/- 0.
6 6 3 gaussian/b Sigma 0. +/- 0.
7 7 3 gaussian/b norm 1.00000 +/- 0.
---------------------------------------------------------------------------
---------------------------------------------------------------------------
7 variable fit parameters
Chi-Squared = 1.2152E+06 using 84 PHA bins.
Reduced chi-squared = 1.5781E+04
!XSPEC> newpar 5 = 2 1.101005
6 variable fit parameters
Chi-Squared = 1.2044E+06 using 84 PHA bins.
Reduced chi-squared = 1.5441E+04
!XSPEC> newpar 6 = 3 1.049288
5 variable fit parameters
Chi-Squared = 1.2044E+06 using 84 PHA bins.
Reduced chi-squared = 1.5246E+04
!XSPEC> renorm
Chi-Squared = 942.8 using 84 PHA bins.
Reduced chi-squared = 11.93
!XSPEC> fit
Chi-Squared Lvl Fit param # 1 2 3 4
5
Due to zero model norms
fit parameter 1 is temporarily frozen
753.60 0 1.000 5.892 9.4342E-02 3.7320E-02
3.1934E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
298.42 0 1.000 5.862 0.1407 5.9145E-02
2.7702E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
112.11 -1 1.000 5.913 0.1519 8.4179E-02
1.7959E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
91.274 -2 1.000 5.946 0.1683 9.3811E-02
1.2448E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
91.060 -3 1.000 5.943 0.1649 9.3522E-02
1.2778E-02
Due to zero model norms
fit parameter 1 is temporarily frozen
91.054 -4 1.000 5.943 0.1647 9.3549E-02
1.2753E-02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
mo = constant[1] ) + gaussian/b[2] + gaussian/b[3]
Model Fit Model Component Parameter Value
par par comp
1 1 1 constant factor 1.00000 +/- -1.0000
2 2 2 gaussian/b LineE 5.94347 +/- 0.89116E-02
3 3 2 gaussian/b Sigma 0.164730 +/- 0.10679E-01
4 4 2 gaussian/b norm 9.354947E-02 +/- 0.24635E-02
5 2 3 gaussian/b LineE 6.54379 = par 2 * 1.1010
6 3 3 gaussian/b Sigma 0.172849 = par 3 * 1.0493
7 5 3 gaussian/b norm 1.275268E-02 +/- 0.15000E-02
---------------------------------------------------------------------------
---------------------------------------------------------------------------
Chi-Squared = 91.05 using 84 PHA bins.
Reduced chi-squared = 1.153
!XSPEC> setplot energy
!XSPEC> iplot data
!PLT> label top GIS3 Calibration Source, should peak near 5.9 keV
!PLT> log x off
!PLT> rescale x 4 8
!PLT> hard /ps
!PLT> quit
!XSPEC> exit
!Do you really want to exit (y) y
XSPEC: quit
-> Calibration source ad55013000g320170.cal peaks at 5.94347 +/- 0.0089116 keV
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s000102h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 1285
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 2 1166
Flickering pixels iter, pixels & cnts : 1 1 4
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 3
Number of (internal) image counts : 1285
Number of image cts rejected (N, %) : 117091.05
By chip : 0 1 2 3
Pixels rejected : 0 3 0 0
Image counts : 0 1285 0 0
Image cts rejected: 0 1170 0 0
Image cts rej (%) : 0.00 91.05 0.00 0.00
filtering data...
Total counts : 0 1285 0 0
Total cts rejected: 0 1170 0 0
Total cts rej (%) : 0.00 91.05 0.00 0.00
Number of clean counts accepted : 115
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 3
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s000112h.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s000112h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 1305
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 2 1166
Flickering pixels iter, pixels & cnts : 1 1 4
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 3
Number of (internal) image counts : 1305
Number of image cts rejected (N, %) : 117089.66
By chip : 0 1 2 3
Pixels rejected : 0 3 0 0
Image counts : 0 1305 0 0
Image cts rejected: 0 1170 0 0
Image cts rej (%) : 0.00 89.66 0.00 0.00
filtering data...
Total counts : 0 1305 0 0
Total cts rejected: 0 1170 0 0
Total cts rej (%) : 0.00 89.66 0.00 0.00
Number of clean counts accepted : 135
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 3
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s000202h.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s000202h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 10584
copy bad pix array...
cleaning chip # 0
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 312 2622
cleaning chip # 1
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 326 2396
cleaning chip # 2
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 273 2190
cleaning chip # 3
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 209 1882
Number of pixels rejected : 1120
Number of (internal) image counts : 10584
Number of image cts rejected (N, %) : 909085.88
By chip : 0 1 2 3
Pixels rejected : 312 326 273 209
Image counts : 2979 2874 2559 2172
Image cts rejected: 2622 2396 2190 1882
Image cts rej (%) : 88.02 83.37 85.58 86.65
filtering data...
Total counts : 2979 2874 2559 2172
Total cts rejected: 2622 2396 2190 1882
Total cts rej (%) : 88.02 83.37 85.58 86.65
Number of clean counts accepted : 1494
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 1120
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s000212h.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s000212h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
File NEVENTS keyword value : 11421
Total counts in chip images : 11420
copy bad pix array...
cleaning chip # 0
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 322 2773
cleaning chip # 1
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 343 2591
cleaning chip # 2
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 298 2430
cleaning chip # 3
Hot pixels & counts : 0 0
Flickering pixels iter, pixels & cnts : 1 224 2007
Number of pixels rejected : 1187
Number of (internal) image counts : 11420
Number of image cts rejected (N, %) : 980185.82
By chip : 0 1 2 3
Pixels rejected : 322 343 298 224
Image counts : 3166 3130 2814 2310
Image cts rejected: 2773 2591 2430 2007
Image cts rej (%) : 87.59 82.78 86.35 86.88
filtering data...
Total counts : 3166 3130 2814 2311
Total cts rejected: 2773 2591 2430 2008
Total cts rej (%) : 87.59 82.78 86.35 86.89
Number of clean counts accepted : 1619
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 1187
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s000302m.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s000302m.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 71
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 2 64
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 2
Number of (internal) image counts : 71
Number of image cts rejected (N, %) : 6490.14
By chip : 0 1 2 3
Pixels rejected : 0 2 0 0
Image counts : 0 71 0 0
Image cts rejected: 0 64 0 0
Image cts rej (%) : 0.00 90.14 0.00 0.00
filtering data...
Total counts : 0 71 0 0
Total cts rejected: 0 64 0 0
Total cts rej (%) : 0.00 90.14 0.00 0.00
Number of clean counts accepted : 7
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 2
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s000312m.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s000312m.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 71
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 2 64
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 2
Number of (internal) image counts : 71
Number of image cts rejected (N, %) : 6490.14
By chip : 0 1 2 3
Pixels rejected : 0 2 0 0
Image counts : 0 71 0 0
Image cts rejected: 0 64 0 0
Image cts rej (%) : 0.00 90.14 0.00 0.00
filtering data...
Total counts : 0 71 0 0
Total cts rejected: 0 64 0 0
Total cts rej (%) : 0.00 90.14 0.00 0.00
Number of clean counts accepted : 7
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 2
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s000402l.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s000402l.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 2417
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 2 2154
Flickering pixels iter, pixels & cnts : 1 2 6
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 4
Number of (internal) image counts : 2417
Number of image cts rejected (N, %) : 216089.37
By chip : 0 1 2 3
Pixels rejected : 0 4 0 0
Image counts : 0 2417 0 0
Image cts rejected: 0 2160 0 0
Image cts rej (%) : 0.00 89.37 0.00 0.00
filtering data...
Total counts : 0 2417 0 0
Total cts rejected: 0 2160 0 0
Total cts rej (%) : 0.00 89.37 0.00 0.00
Number of clean counts accepted : 257
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 4
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s000412l.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s000412l.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 2460
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 2 2154
Flickering pixels iter, pixels & cnts : 1 2 6
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 4
Number of (internal) image counts : 2460
Number of image cts rejected (N, %) : 216087.80
By chip : 0 1 2 3
Pixels rejected : 0 4 0 0
Image counts : 0 2460 0 0
Image cts rejected: 0 2160 0 0
Image cts rej (%) : 0.00 87.80 0.00 0.00
filtering data...
Total counts : 0 2460 0 0
Total cts rejected: 0 2160 0 0
Total cts rej (%) : 0.00 87.80 0.00 0.00
Number of clean counts accepted : 300
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 4
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s100102h.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s100102h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 3077
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 8 2965
Flickering pixels iter, pixels & cnts : 1 2 10
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 10
Number of (internal) image counts : 3077
Number of image cts rejected (N, %) : 297596.69
By chip : 0 1 2 3
Pixels rejected : 0 10 0 0
Image counts : 0 3077 0 0
Image cts rejected: 0 2975 0 0
Image cts rej (%) : 0.00 96.69 0.00 0.00
filtering data...
Total counts : 0 3077 0 0
Total cts rejected: 0 2975 0 0
Total cts rej (%) : 0.00 96.69 0.00 0.00
Number of clean counts accepted : 102
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 10
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s100112h.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s100112h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 3084
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 8 2965
Flickering pixels iter, pixels & cnts : 1 2 10
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 10
Number of (internal) image counts : 3084
Number of image cts rejected (N, %) : 297596.47
By chip : 0 1 2 3
Pixels rejected : 0 10 0 0
Image counts : 0 3084 0 0
Image cts rejected: 0 2975 0 0
Image cts rej (%) : 0.00 96.47 0.00 0.00
filtering data...
Total counts : 0 3084 0 0
Total cts rejected: 0 2975 0 0
Total cts rej (%) : 0.00 96.47 0.00 0.00
Number of clean counts accepted : 109
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 10
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s100202m.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s100202m.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 180
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 7 172
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 7
Number of (internal) image counts : 180
Number of image cts rejected (N, %) : 17295.56
By chip : 0 1 2 3
Pixels rejected : 0 7 0 0
Image counts : 0 180 0 0
Image cts rejected: 0 172 0 0
Image cts rej (%) : 0.00 95.56 0.00 0.00
filtering data...
Total counts : 0 180 0 0
Total cts rejected: 0 172 0 0
Total cts rej (%) : 0.00 95.56 0.00 0.00
Number of clean counts accepted : 8
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 7
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s100212m.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s100212m.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 180
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 7 172
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 7
Number of (internal) image counts : 180
Number of image cts rejected (N, %) : 17295.56
By chip : 0 1 2 3
Pixels rejected : 0 7 0 0
Image counts : 0 180 0 0
Image cts rejected: 0 172 0 0
Image cts rej (%) : 0.00 95.56 0.00 0.00
filtering data...
Total counts : 0 180 0 0
Total cts rejected: 0 172 0 0
Total cts rej (%) : 0.00 95.56 0.00 0.00
Number of clean counts accepted : 8
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 7
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s100302l.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s100302l.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 5550
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 8 5360
Flickering pixels iter, pixels & cnts : 1 1 11
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 9
Number of (internal) image counts : 5550
Number of image cts rejected (N, %) : 537196.77
By chip : 0 1 2 3
Pixels rejected : 0 9 0 0
Image counts : 0 5550 0 0
Image cts rejected: 0 5371 0 0
Image cts rej (%) : 0.00 96.77 0.00 0.00
filtering data...
Total counts : 0 5550 0 0
Total cts rejected: 0 5371 0 0
Total cts rej (%) : 0.00 96.77 0.00 0.00
Number of clean counts accepted : 179
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 9
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s100312l.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s100312l.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 5563
copy bad pix array...
cleaning chip # 0
cleaning chip # 1
Hot pixels & counts : 8 5361
Flickering pixels iter, pixels & cnts : 1 1 11
cleaning chip # 2
cleaning chip # 3
Number of pixels rejected : 9
Number of (internal) image counts : 5563
Number of image cts rejected (N, %) : 537296.57
By chip : 0 1 2 3
Pixels rejected : 0 9 0 0
Image counts : 0 5563 0 0
Image cts rejected: 0 5372 0 0
Image cts rej (%) : 0.00 96.57 0.00 0.00
filtering data...
Total counts : 0 5563 0 0
Total cts rejected: 0 5372 0 0
Total cts rej (%) : 0.00 96.57 0.00 0.00
Number of clean counts accepted : 191
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 9
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s100402h.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s100402h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
File NEVENTS keyword value : 2401
Total counts in chip images : 2400
copy bad pix array...
cleaning chip # 0
Hot pixels & counts : 46 1143
Flickering pixels iter, pixels & cnts : 1 14 84
cleaning chip # 1
cleaning chip # 2
cleaning chip # 3
Hot pixels & counts : 37 927
Flickering pixels iter, pixels & cnts : 1 16 113
Number of pixels rejected : 113
Number of (internal) image counts : 2400
Number of image cts rejected (N, %) : 226794.46
By chip : 0 1 2 3
Pixels rejected : 60 0 0 53
Image counts : 1338 0 0 1062
Image cts rejected: 1227 0 0 1040
Image cts rej (%) : 91.70 0.00 0.00 97.93
filtering data...
Total counts : 1339 0 0 1062
Total cts rejected: 1228 0 0 1040
Total cts rej (%) : 91.71 0.00 0.00 97.93
Number of clean counts accepted : 133
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 113
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000s100412h.unf
CLEANSIS_V1.6
allocating image arrays...
PROGRAM TO MAKE AN SIS SCIENCE FILE CLEANED OF ANOMALOUS PIXELS.
* Anomalous pixels may consist of at least two populations.
1. Persistent HOT pixels are removed by comparing to the chip mean.
2. Flickering WARM pixels are removed by comparing to the cell mean.
3. In faint areas (zero bgd), flickering pixels are removed with a
cutoff threshold.
Hints:
Choose cell size and thresholds based on the expected background and the PSF.
Use the DIRTYSIS option to examine the anomalous pixel spectra.
Try a multiple pass clean:
Choose a PHA cut to optimize the S/N of the flickering pixels,
then a broad band clean.
Be suspicious of extended source cleans.
For very bright sources you may need to turn off the iteration option.
See the help page for further info (fhelp cleansis)
Poisson clean cell size : 5
Poisson probability threshold : 0.575E-05
Zero Bgd Cutoff threshold (>) : 3
Iterate : F
Dirtysis : F
Minimum PHA value (inclusive) : 0
Maximum PHA value (inclusive) : 4095
open output file: ad55013000s100412h.drk
reading data file: event.tmp
copying primary header to output file...
making chip image...
Total counts in chip images : 2425
copy bad pix array...
cleaning chip # 0
Hot pixels & counts : 46 1146
Flickering pixels iter, pixels & cnts : 1 15 87
cleaning chip # 1
cleaning chip # 2
cleaning chip # 3
Hot pixels & counts : 37 932
Flickering pixels iter, pixels & cnts : 1 16 113
Number of pixels rejected : 114
Number of (internal) image counts : 2425
Number of image cts rejected (N, %) : 227893.94
By chip : 0 1 2 3
Pixels rejected : 61 0 0 53
Image counts : 1355 0 0 1070
Image cts rejected: 1233 0 0 1045
Image cts rej (%) : 91.00 0.00 0.00 97.66
filtering data...
Total counts : 1355 0 0 1070
Total cts rejected: 1233 0 0 1045
Total cts rej (%) : 91.00 0.00 0.00 97.66
Number of clean counts accepted : 147
writing history cards...
copying extensions...
writing out hot pixs...
Number of rejected pixels : 114
updating NEVENTS keywords...
closing data file...
closing clean file...
-> Extracting bright and dark Earth events from ad55013000g200170h.unfOffset of 213408004.000000 from 1993-01-01 00:00:00 is date and time (including leapseconds) = 1999-10-07 00:00:00.00000 Modified Julian Day = 51458.000000000000000-> leapsec.fits already present in current directory
Offset of 197078404.000000 from 1993-01-01 00:00:00 is date and time (including leapseconds) = 1999-04-01 00:00:00.00000 Modified Julian Day = 51269.000000000000000-> leapsec.fits already present in current directory
Offset of 150000000.000000 from 1993-01-01 00:00:00 is date and time (including leapseconds) = 1997-10-03 02:39:56.00000 Modified Julian Day = 50724.111064814816928
ad55013000s000102h.unf|S0CCDPOW|0100|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55013000s000202h.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55013000s000102h.unf|S0CCDMOD|1|How many S0 CCDs are in use: 1, 2, or 4 ad55013000s000202h.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4 ad55013000s000102h.unf|S0CCDLST|1 1 1 1|S0 CCD readout order ad55013000s000202h.unf|S0CCDLST|0 1 2 3|S0 CCD readout order-> listing ad55013000s000102h.unf
ad55013000s000112h.unf|S0CCDPOW|0100|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55013000s000212h.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55013000s000112h.unf|S0CCDMOD|1|How many S0 CCDs are in use: 1, 2, or 4 ad55013000s000212h.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4 ad55013000s000112h.unf|S0CCDLST|1 1 1 1|S0 CCD readout order ad55013000s000212h.unf|S0CCDLST|0 1 2 3|S0 CCD readout order-> listing ad55013000s000112h.unf
ad55013000s000101h.unf|S0CCDPOW|0100|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55013000s000201h.unf|S0CCDPOW|1111|Which S0 CCDs are in use(0123): 0=OFF 1=ON ad55013000s000101h.unf|S0CCDMOD|1|How many S0 CCDs are in use: 1, 2, or 4 ad55013000s000201h.unf|S0CCDMOD|4|How many S0 CCDs are in use: 1, 2, or 4 ad55013000s000101h.unf|S0CCDLST|1 1 1 1|S0 CCD readout order ad55013000s000201h.unf|S0CCDLST|0 1 2 3|S0 CCD readout order-> listing ad55013000s000101h.unf
ad55013000s100102h.unf|S1CCDPOW|0100|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55013000s100402h.unf|S1CCDPOW|1001|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55013000s100102h.unf|S1CCDMOD|1|How many S1 CCDs are in use: 1, 2, or 4 ad55013000s100402h.unf|S1CCDMOD|2|How many S1 CCDs are in use: 1, 2, or 4 ad55013000s100102h.unf|S1CCDLST|1 1 1 1|S1 CCD readout order ad55013000s100402h.unf|S1CCDLST|3 0 3 0|S1 CCD readout order-> listing ad55013000s100102h.unf
ad55013000s100112h.unf|S1CCDPOW|0100|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55013000s100412h.unf|S1CCDPOW|1001|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55013000s100112h.unf|S1CCDMOD|1|How many S1 CCDs are in use: 1, 2, or 4 ad55013000s100412h.unf|S1CCDMOD|2|How many S1 CCDs are in use: 1, 2, or 4 ad55013000s100112h.unf|S1CCDLST|1 1 1 1|S1 CCD readout order ad55013000s100412h.unf|S1CCDLST|3 0 3 0|S1 CCD readout order-> listing ad55013000s100112h.unf
ad55013000s100101h.unf|S1CCDPOW|0100|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55013000s100401h.unf|S1CCDPOW|1001|Which S1 CCDs are in use(0123): 0=OFF 1=ON ad55013000s100101h.unf|S1CCDMOD|1|How many S1 CCDs are in use: 1, 2, or 4 ad55013000s100401h.unf|S1CCDMOD|2|How many S1 CCDs are in use: 1, 2, or 4 ad55013000s100101h.unf|S1CCDLST|1 1 1 1|S1 CCD readout order ad55013000s100401h.unf|S1CCDLST|3 0 3 0|S1 CCD readout order-> listing ad55013000s100101h.unf
797 662 904 74 2682 610 4705 82 6995 114 2
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
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Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
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Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
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Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Standard Output From FTOOL fchecksum:
Checksum keywords updated successfully.-> Doing inventory of all files