The name of this report template file is TEMPLATE/sreport.template. All efficiencies are normalized to "strig". Values in parenthesis are rates ( Hz ). hardware scalers have rates in square brackets [ Hz ]. Run #: 47576 Time of run = 132.5 sec (at most recent scaler event) first event = 1 last event = 10398 dmytst = 9127 ( 68.9 ) atrig = 9127 ( 68.9 ) htrig = 7848 ( 59.2 ) strig = 1327 ( 10.0 ) ctrig = 48 ( 0.4 ) hms adcgates= 8407 [ 63.4 ] sos adcgates= 1408 [ 10.6 ] all adcgates= 9767 [ 73.7 ] ***************************** * SOS TRACKING EFFICIENCIES * ***************************** strig : 1327 shitslt = passed hits/cham : 1324 shitsplanes =+ planes >= 5/6 : 1195 shtsplanessps = + sps : 1189 shitsplanesspsstubs =+stub : 1186 ssfoundtrack : 1186 sscleantrack : 1186 sstublt = passed stub tests : 1246 s1hitslt : 1325 s2hitslt : 1326 s1planesgt : 1250 s2planesgt : 1215 splanesgt = gt 5 planes/cham : 1198 f1sspacepoints : 4 f2sspacepoints : 3 stest1=p hits/planes, f sp : 6 stest2=p sp, f stubs : 3 sdid : 326 sdidh : 210 sdide : 104 sscinshould : 337 sscinshouldh : 215 sscinshoulde : 104 SING TRACK EFF : 0.9674 +- 0.0098 H SING TRACK EFF : 0.9767 +- 0.0104 E SING TRACK EFF : 1.0000 +- 0.0000 * sos coincidences... ctrig : 48 bshitslt = passed hits/cham : 47 bshitsplanes =+ planes >= 5/6 : 47 bshitsplanessps = + sps : 47 bshitsplanesspsstubs =+stub : 47 found track and ctrig : 48 bsstublt = passed stub tests : 48 bs1hitslt : 47 bs2hitslt : 48 bs1planesgt : 48 bs2planesgt : 48 bsplanesgt = gt 5 planes/cham : 48 f1bsspacepoints : 0 f2bsspacepoints : 0 bstest1=p hits/planes, f sp : 0 bstest2=p sp, f stubs : 0 bsdid : 28 bsdidh : 1 bsdide : 27 bsscinshould : 28 bsscinshouldh : 1 bsscinshoulde : 27 'CLEAN' COIN TRACK EFF : 1.0000 +- 0.0000 H COIN TRACK EFF : 0.9999 +- 0.0000 E COIN TRACK EFF : 1.0000 +- 0.0000 ******************************************************************** ***************************** * RAW SOFTWARE EFFICIENCIES * ***************************** "raw" means one or more hits per dc plane. "Good" means one or two hits per dc plane. rawsdc1x1 = 1226 eff = 0.965 BAD = .95 rawsdc1y1 = 1235 eff = 0.972 BAD = .95 rawsdc1u1 = 1243 eff = 0.979 BAD = .95 rawsdc1v1 = 1220 eff = 0.961 BAD = .95 rawsdc1y2 = 1226 eff = 0.965 BAD = .95 rawsdc1x2 = 1244 eff = 0.980 BAD = .95 rawsdc1 = 1263 eff = 0.994 BAD = .99 rawsdc2x1 = 1219 eff = 0.960 BAD = .95 rawsdc2y1 = 1218 eff = 0.959 BAD = .95 rawsdc2u1 = 1217 eff = 0.958 BAD = .95 rawsdc2v1 = 1210 eff = 0.953 BAD = .95 rawsdc2y2 = 1211 eff = 0.954 BAD = .95 rawsdc2x2 = 1212 eff = 0.954 BAD = .95 rawsdc2 = 1240 eff = 0.976 BAD = .99 goodsdc1u1 = 1208 eff = 0.910 BAD = .95 goodsdc1u2 = 1219 eff = 0.919 BAD = .95 goodsdc1x1 = 1219 eff = 0.919 BAD = .95 goodsdc1x2 = 1203 eff = 0.907 BAD = .95 goodsdc1v1 = 1207 eff = 0.910 BAD = .95 goodsdc1v2 = 1227 eff = 0.925 BAD = .95 goodsdc1 = 1042 eff = 0.785 BAD = .90 goodsdc2u1 = 1207 eff = 0.910 BAD = .95 goodsdc2u2 = 1207 eff = 0.910 BAD = .95 goodsdc2x1 = 1209 eff = 0.911 BAD = .95 goodsdc2x2 = 1198 eff = 0.903 BAD = .95 goodsdc2v1 = 1199 eff = 0.904 BAD = .95 goodsdc2v2 = 1201 eff = 0.905 BAD = .95 goodsdc2 = 1083 eff = 0.816 BAD = .90 bothgoodsdc = 893 eff = 0.673 BAD = .80 "sfoundtrack" based on analyzer variable SNTRACKS_FP. "scleantrack" based on analyzer variable SSNUM_FPTRACK (=foundtrack+chi2+PID). sfoundtrack = 1186 eff = 0.894 BAD = .95 sfound1track= 1159 eff = 0.873 sfound2track= 20 eff = 0.015 sfound3track= 2 eff = 0.002 sfound4track= 2 eff = 0.002 scleantrack = 1186 eff = 0.894 BAD = .95 sclean1track= 1169 eff = 0.881 sclean2track= 12 eff = 0.009 sclean3track= 1 eff = 0.001 sclean4track= 1 eff = 0.001 "Any" means one or more hits per scint plane. "Good" means one or two hits per scint plane. anyss1x = 1230 eff = 0.927 BAD = .99 anyss1y = 1291 eff = 0.973 BAD = .99 anyss2x = 1280 eff = 0.965 BAD = .99 anyss2y = 1324 eff = 0.998 BAD = .99 goodss1x = 1227 eff = 0.925 BAD = .98 goodss1y = 1282 eff = 0.966 BAD = .98 goodss1 = 1185 eff = 0.893 BAD = .96 goodss2x = 1248 eff = 0.940 BAD = .98 goodss2y = 1298 eff = 0.978 BAD = .98 goodss2 = 1227 eff = 0.925 BAD = .96 goodss1s2 = 1103 eff = 0.831 ******************** * HARDWARE SCALERS * ******************** General Format: signal = counts ( rate-Hz ) Time of run = 132.5 sec sS1X+ sS1X1+ = 24212 [ 182.7 ] sS1X2+ = 25685 [ 193.8 ] sS1X3+ = 28586 [ 215.7 ] sS1X4+ = 25969 [ 195.9 ] sS1X5+ = 15275 [ 115.2 ] sS1X6+ = 16398 [ 123.7 ] sS1X7+ = 25687 [ 193.8 ] sS1X8+ = 20201 [ 152.4 ] sS1X9+ = 20558 [ 155.1 ] sS1X- sS1X1- = 32074 [ 242.0 ] sS1X2- = 28302 [ 213.5 ] sS1X3- = 24090 [ 181.7 ] sS1X4- = 36582 [ 276.0 ] sS1X5- = 19383 [ 146.2 ] sS1X6- = 24262 [ 183.0 ] sS1X7- = 20280 [ 153.0 ] sS1X8- = 20910 [ 157.8 ] sS1X9- = 15251 [ 115.1 ] sS1Y+ sS1Y1+ = 29333 [ 221.3 ] sS1Y2+ = 28593 [ 215.7 ] sS1Y3+ = 26950 [ 203.3 ] sS1Y4+ = 28204 [ 212.8 ] sS1Y5+ = 21320 [ 160.8 ] sS1Y6+ = 25858 [ 195.1 ] sS1Y7+ = 27716 [ 209.1 ] sS1Y8+ = 28081 [ 211.9 ] sS1Y9+ = 30598 [ 230.8 ] sS1Y- sS1Y1- = 15907 [ 120.0 ] sS1Y2- = 29644 [ 223.6 ] sS1Y3- = 31566 [ 238.2 ] sS1Y4- = 31462 [ 237.4 ] sS1Y5- = 29462 [ 222.3 ] sS1Y6- = 22808 [ 172.1 ] sS1Y7- = 35081 [ 264.7 ] sS1Y8- = 31173 [ 235.2 ] sS1Y9- = 31206 [ 235.4 ] sS2X+ sS2X1+ = 13817 [ 104.2 ] sS2X2+ = 22123 [ 166.9 ] sS2X3+ = 17621 [ 132.9 ] sS2X4+ = 20211 [ 152.5 ] sS2X5+ = 29430 [ 222.0 ] sS2X6+ = 21302 [ 160.7 ] sS2X7+ = 20577 [ 155.2 ] sS2X8+ = 10869 [ 82.0 ] sS2X9+ = 18405 [ 138.9 ] sS2X10+ = 17606 [ 132.8 ] sS2X11+ = 18121 [ 136.7 ] sS2X12+ = 16435 [ 124.0 ] sS2X13+ = 16806 [ 126.8 ] sS2X14+ = 17473 [ 131.8 ] sS2X15+ = 15585 [ 117.6 ] sS2X16+ = 0 [ 0.0 ] sS2X- sS2X1- = 13515 [ 102.0 ] sS2X2- = 21828 [ 164.7 ] sS2X3- = 20357 [ 153.6 ] sS2X4- = 18805 [ 141.9 ] sS2X5- = 20031 [ 151.1 ] sS2X6- = 20614 [ 155.5 ] sS2X7- = 20219 [ 152.5 ] sS2X8- = 17535 [ 132.3 ] sS2X9- = 18680 [ 140.9 ] sS2X10- = 6470 [ 48.8 ] sS2X11- = 18594 [ 140.3 ] sS2X12- = 18290 [ 138.0 ] sS2X13- = 18224 [ 137.5 ] sS2X14- = 18296 [ 138.0 ] sS2X15- = 17402 [ 131.3 ] sS2X16- = 0 [ 0.0 ] sS2Y+ sS2Y1+ = 37071 [ 279.7 ] sS2Y2+ = 33622 [ 253.7 ] sS2Y3+ = 38302 [ 289.0 ] sS2Y4+ = 35661 [ 269.0 ] sS2Y5+ = 32315 [ 243.8 ] sS2Y6+ = 145870 [ 1100.5 ] sS2Y7+ = 34080 [ 257.1 ] sS2Y8+ = 50942 [ 384.3 ] sS2Y9+ = 35294 [ 266.3 ] sS2Y- sS2Y1- = 25178 [ 190.0 ] sS2Y2- = 33359 [ 251.7 ] sS2Y3- = 39003 [ 294.3 ] sS2Y4- = 36854 [ 278.0 ] sS2Y5- = 25030 [ 188.8 ] sS2Y6- = 39194 [ 295.7 ] sS2Y7- = 39274 [ 296.3 ] sS2Y8- = 44176 [ 333.3 ] sS2Y9- = 38953 [ 293.9 ] DA0C sCALA = 0 [ 0.0 ] sCALB = 0 [ 0.0 ] sCALC = 0 [ 0.0 ] sCALD = 0 [ 0.0 ] DA15 SOFTWARE SCALERS ('efficiency') sS1X = 157383 [ 1187.4 ] 0 ( 0.000 ) sS1Y = 169381 [ 1277.9 ] 0 ( 0.000 ) sS2X = 204888 [ 1545.8 ] 0 ( 0.000 ) sS2Y = 187964 [ 1418.1 ] 0 ( 0.000 ) sS1 = 310314 [ 2341.2 ] 0 ( 0.000 ) sS2 = 375200 [ 2830.7 ] 0 ( 0.000 ) ---- = 0 [ 0 ] 0 ( 0.000 ) RF?? = [ 0 ] 0 ( 0.000 ) HMSPRE = 8923 [ 67.3 ] 0 ( 0.000 ) HMSPRE_SYNC = 8726 [ 65.8 ] 0 ( 0.000 ) SOSPRE = 1495 [ 11.3 ] 0 ( 0.000 ) SOSPRE_SYNC = 1488 [ 11.2 ] 0 ( 0.000 ) COINPRE = 53 [ 0.4 ] 0 ( 0.000 ) COINPRE_SYNC = 53 [ 0.4 ] 0 ( 0.000 ) PEDPRE = 0 [ 0.0 ] 0 ( 0.000 ) HMSTRG = 8407 [ 63.4 ] 0 ( 0.000 ) HMSTRG_SYNC = 8210 [ 61.9 ] 0 ( 0.000 ) SOSTRG = 1408 [ 10.6 ] 0 ( 0.000 ) SOSTRG_SYNC = 1401 [ 10.6 ] 0 ( 0.000 ) COINTRG = 48 [ 0.4 ] 0 ( 0.000 ) COINTRG_SYNC = 48 [ 0.4 ] 0 ( 0.000 ) PEDTRG = 0 [ 0.0 ] 0 ( 0.000 ) The above coinpre/cointrg miss a few % of the random coincidences DA13 sS1 = 310106 [ 2339.6 ] 1327 ( 1.000 ) sS2 = 374837 [ 2828.0 ] 1327 ( 1.000 ) sS1X = 157272 [ 1186.5 ] 1228 ( 0.925 ) sS1Y = 444607 [ 3354.3 ] 1289 ( 0.971 ) sS2X = 204661 [ 1544.1 ] 1265 ( 0.953 ) sS2Y = 187792 [ 1416.8 ] 1322 ( 0.996 ) sPRE50 = 1495 [ 11.3 ] 1327 ( 1.000 ) sPRE100 = 1495 [ 11.3 ] 1327 ( 1.000 ) sPRE150 = 1495 [ 11.3 ] 1327 ( 1.000 ) sPRE200 = 1495 [ 11.3 ] 1327 ( 1.000 ) sSTOF = 5092 [ 38.4 ] 1327 ( 1.000 ) sSCIN = 4085 [ 30.8 ] 1322 ( 0.996 ) sELREAL = 1495 [ 11.3 ] 1327 ( 1.000 ) sPIPRE = 256 [ 1.9 ] 75 ( 0.057 ) sELBOTH = 414 [ 3.1 ] 367 ( 0.277 ) sPRETRG = 1495 [ 11.3 ] 1327 ( 1.000 ) DA14 BCM1 = [ 256069 ] 1327 ( 1.000 ) BCM2 = [ 255826 ] 1327 ( 1.000 ) BCM3 = [ 0 ] 0 ( 0.000 ) UNZER = [ 317109 ] 1327 ( 1.000 ) 1 MHz = [ 1000000 ] 0 ( 0.000 ) MHz&BG = [ 0 ] 1122 ( 0.846 ) sPIONSCAL= 3556 [ 26.8 ] 851 ( 0.641 ) sELECSCAL= 414 [ 3.1 ] 367 ( 0.277 ) sPION = 4085 [ 30.8 ] 1322 ( 0.996 ) sCER = 680984 [ 5137.7 ] 503 ( 0.379 ) sELHI = 1374 [ 10.4 ] 1218 ( 0.918 ) sELLO = 535 [ 4.0 ] 476 ( 0.359 ) sPRHI = 5849 [ 44.1 ] 1227 ( 0.925 ) sPRLO = 10230 [ 77.2 ] 1247 ( 0.940 ) sSHLO = 11987 [ 90.4 ] 1249 ( 0.941 ) sADCGATES= 1408 [ 10.6 ] 1327 ( 1.000 ) RF(25ps)?=(software scaler only) 0 ( 0.000 ) ********** *SUMMARY * ********** time = 132.546524 sec goodsdc1 eff = 1042 eff = 0.785 BAD = .90 goodsdc2 eff = 1083 eff = 0.816 BAD = .90 ss1x 1/2 eff = 0.927 BAD = .99 ss1y 1/2 eff = 0.973 BAD = .99 ss2x 1/2 eff = 0.965 BAD = .99 ss2y 1/2 eff = 0.998 BAD = .99 I_avg Q_tot Q_tot (microAmps) (microCoulombs) (microAmp-hours) BCM1 5.388 714.201 0.198 BCM2 5.459 723.595 0.201 BCM3 -106.380 -14100.266 -3.917 spretriggers = 1495 [ 11.3 ] striggers = 1408 [ 10.6 ] sadcgates = 1408 [ 10.6 ] ! real # of triggers Computer D.T.= 5.46% Elec. D.T. = 0.00% ************************** * Hodoscope Efficiencies * ************************** Efficiencies for hodoscopes is the fraction of times scin. was hit when track with chisquared/dof < 10.0 came within 1.0 cm of the center. Events examined = strig = 1327 Tracks found = scleantrack = 1186 Tracks passing chisquared cut = 1007 Scint POS eff NEG eff OR eff AND eff Hits ----- ------- ------- ------ ------- ---- sS1X1 1.000 1.000 1.000 1.000 66 sS1X2 1.000 1.000 1.000 1.000 68 sS1X3 1.000 1.000 1.000 1.000 61 sS1X4 1.000 1.000 1.000 1.000 36 sS1X5 1.000 1.000 1.000 1.000 24 sS1X6 0.857 1.000 1.000 0.857 14 sS1X7 1.000 1.000 1.000 1.000 7 sS1X8 1.000 1.000 1.000 1.000 2 sS1X9 1.000 1.000 1.000 1.000 1 sS1Y1 0.000 0.000 0.000 0.000 0 sS1Y2 1.000 1.000 1.000 1.000 15 sS1Y3 1.000 1.000 1.000 1.000 116 sS1Y4 1.000 1.000 1.000 1.000 137 sS1Y5 1.000 1.000 1.000 1.000 112 sS1Y6 1.000 1.000 1.000 1.000 91 sS1Y7 1.000 1.000 1.000 1.000 43 sS1Y8 1.000 1.000 1.000 1.000 6 sS1Y9 0.000 0.000 0.000 0.000 0 sS2X1 0.889 0.889 0.889 0.889 9 sS2X2 0.905 0.905 0.905 0.905 21 sS2X3 0.960 0.960 0.960 0.960 25 sS2X4 0.969 0.969 0.969 0.969 32 sS2X5 0.977 0.977 0.977 0.977 44 sS2X6 0.935 0.935 0.935 0.935 31 sS2X7 0.905 0.905 0.905 0.905 42 sS2X8 0.913 1.000 1.000 0.913 23 sS2X9 0.938 0.938 0.938 0.938 16 sS2X10 0.917 0.750 0.917 0.750 12 sS2X11 1.000 1.000 1.000 1.000 5 sS2X12 1.000 1.000 1.000 1.000 2 sS2X13 0.333 0.333 0.333 0.333 3 sS2X14 1.000 1.000 1.000 1.000 1 sS2X15 1.000 1.000 1.000 1.000 3 sS2X16 0.000 0.000 0.000 0.000 1 sS2Y1 1.000 1.000 1.000 1.000 10 sS2Y2 0.964 0.927 0.964 0.927 55 sS2Y3 0.956 0.956 0.956 0.956 114 sS2Y4 0.913 0.913 0.913 0.913 115 sS2Y5 0.951 0.938 0.951 0.938 81 sS2Y6 0.973 0.960 0.973 0.960 75 sS2Y7 0.974 1.000 1.000 0.974 39 sS2Y8 0.833 0.833 0.833 0.833 18 sS2Y9 0.889 0.889 0.889 0.889 9 all sS1X 0.993 1.000 1.000 0.993 279 all sS1Y 1.000 1.000 1.000 1.000 520 all sS2X 0.930 0.930 0.937 0.922 270 all sS2Y 0.946 0.940 0.948 0.938 516 Calculted Trigger efficiencies: sS1 : 1.000 sS2 : 0.995 sSTOF : 0.995 3/4 : 0.994 4/4 : 0.859 ************************* * Cerenkov Efficiencies * ************************* Good Track Requirements: 1. Only one track found in the focal plane 2. chisq/dof < 50.0 3. 0.800 < beta < 1.200 4. 0.950 < calorimeter energy < 2.000 Threshold set at 0.5 Mirror 1 Efficiency = 1.000 = 11 of 11 good tracks. Mirror 2 Efficiency = 0.889 = 8 of 9 good tracks. Mirror 3 Efficiency = 0.971 = 102 of 105 good tracks. Mirror 4 Efficiency = 0.955 = 169 of 177 good tracks. Overall Efficiency = 0.965 = 222 of 230 good tracks. **************************** * Calorimeter Efficiencies * **************************** Efficiencies for calorimeter is the fraction of times block was hit when track with chisquared/dof < 10.0 came within 2.0 cm of the center. and scal_npe_sum > 3.0 (hardwired). Events examined = strig = 1327 Tracks found = scleantrack = 1186 Tracks passing chisquared cut = 343 Block eff Hits ----- --- ---- sA1 1.000 4 sA2 1.000 17 sA3 1.000 20 sA4 1.000 24 sA5 1.000 23 sA6 1.000 18 sA7 0.857 14 sA8 1.000 12 sA9 1.000 3 sA10 0.667 3 sA11 1.000 2 sB1 1.000 6 sB2 1.000 14 sB3 1.000 21 sB4 0.950 20 sB5 0.955 22 sB6 0.941 17 sB7 0.857 14 sB8 1.000 10 sB9 1.000 3 sB10 1.000 1 sB11 1.000 2 sC1 1.000 7 sC2 1.000 15 sC3 0.941 17 sC4 0.947 19 sC5 0.944 18 sC6 0.913 23 sC7 0.867 15 sC8 0.750 12 sC9 0.833 6 sC10 1.000 1 sC11 1.000 2 sD1 0.571 7 sD2 0.600 15 sD3 0.765 17 sD4 0.474 19 sD5 0.611 18 sD6 0.522 23 sD7 0.667 15 sD8 0.417 12 sD9 0.667 6 sD10 1.000 1 sD11 0.000 2 sA 0.979 140 sB 0.962 130 sC 0.919 135 sD 0.578 135