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 #: 47420 Time of run = 0.0 sec (at most recent scaler event) first event = 1 last event = 0 dmytst = 0 ( 0.0 ) atrig = 0 ( 0.0 ) htrig = 0 ( 0.0 ) strig = 0 ( 0.0 ) ctrig = 0 ( 0.0 ) hms adcgates= 0 [ 0.0 ] sos adcgates= 0 [ 0.0 ] all adcgates= 0 [ 0.0 ] ***************************** * SOS TRACKING EFFICIENCIES * ***************************** strig : 0 shitslt = passed hits/cham : 0 shitsplanes =+ planes >= 5/6 : 0 shtsplanessps = + sps : 0 shitsplanesspsstubs =+stub : 0 ssfoundtrack : 0 sscleantrack : 0 sstublt = passed stub tests : 0 s1hitslt : 0 s2hitslt : 0 s1planesgt : 0 s2planesgt : 0 splanesgt = gt 5 planes/cham : 0 f1sspacepoints : 0 f2sspacepoints : 0 stest1=p hits/planes, f sp : 0 stest2=p sp, f stubs : 0 sdid : 0 sdidh : 0 sdide : 0 sscinshould : 0 sscinshouldh : 0 sscinshoulde : 0 SING TRACK EFF : 0.0000 +- 0.0000 H SING TRACK EFF : 0.0000 +- 0.0000 E SING TRACK EFF : 0.0000 +- 0.0000 * sos coincidences... ctrig : 0 bshitslt = passed hits/cham : 0 bshitsplanes =+ planes >= 5/6 : 0 bshitsplanessps = + sps : 0 bshitsplanesspsstubs =+stub : 0 found track and ctrig : 0 bsstublt = passed stub tests : 0 bs1hitslt : 0 bs2hitslt : 0 bs1planesgt : 0 bs2planesgt : 0 bsplanesgt = gt 5 planes/cham : 0 f1bsspacepoints : 0 f2bsspacepoints : 0 bstest1=p hits/planes, f sp : 0 bstest2=p sp, f stubs : 0 bsdid : 0 bsdidh : 0 bsdide : 0 bsscinshould : 0 bsscinshouldh : 0 bsscinshoulde : 0 'CLEAN' COIN TRACK EFF : 0.0000 +- 0.0000 H COIN TRACK EFF : 0.0000 +- 0.0000 E COIN TRACK EFF : 0.0000 +- 0.0000 ******************************************************************** ***************************** * RAW SOFTWARE EFFICIENCIES * ***************************** "raw" means one or more hits per dc plane. "Good" means one or two hits per dc plane. rawsdc1x1 = 0 eff = 0.000 BAD = .95 rawsdc1y1 = 0 eff = 0.000 BAD = .95 rawsdc1u1 = 0 eff = 0.000 BAD = .95 rawsdc1v1 = 0 eff = 0.000 BAD = .95 rawsdc1y2 = 0 eff = 0.000 BAD = .95 rawsdc1x2 = 0 eff = 0.000 BAD = .95 rawsdc1 = 0 eff = 0.000 BAD = .99 rawsdc2x1 = 0 eff = 0.000 BAD = .95 rawsdc2y1 = 0 eff = 0.000 BAD = .95 rawsdc2u1 = 0 eff = 0.000 BAD = .95 rawsdc2v1 = 0 eff = 0.000 BAD = .95 rawsdc2y2 = 0 eff = 0.000 BAD = .95 rawsdc2x2 = 0 eff = 0.000 BAD = .95 rawsdc2 = 0 eff = 0.000 BAD = .99 goodsdc1u1 = 0 eff = 0.000 BAD = .95 goodsdc1u2 = 0 eff = 0.000 BAD = .95 goodsdc1x1 = 0 eff = 0.000 BAD = .95 goodsdc1x2 = 0 eff = 0.000 BAD = .95 goodsdc1v1 = 0 eff = 0.000 BAD = .95 goodsdc1v2 = 0 eff = 0.000 BAD = .95 goodsdc1 = 0 eff = 0.000 BAD = .90 goodsdc2u1 = 0 eff = 0.000 BAD = .95 goodsdc2u2 = 0 eff = 0.000 BAD = .95 goodsdc2x1 = 0 eff = 0.000 BAD = .95 goodsdc2x2 = 0 eff = 0.000 BAD = .95 goodsdc2v1 = 0 eff = 0.000 BAD = .95 goodsdc2v2 = 0 eff = 0.000 BAD = .95 goodsdc2 = 0 eff = 0.000 BAD = .90 bothgoodsdc = 0 eff = 0.000 BAD = .80 "sfoundtrack" based on analyzer variable SNTRACKS_FP. "scleantrack" based on analyzer variable SSNUM_FPTRACK (=foundtrack+chi2+PID). sfoundtrack = 0 eff = 0.000 BAD = .95 sfound1track= 0 eff = 0.000 sfound2track= 0 eff = 0.000 sfound3track= 0 eff = 0.000 sfound4track= 0 eff = 0.000 scleantrack = 0 eff = 0.000 BAD = .95 sclean1track= 0 eff = 0.000 sclean2track= 0 eff = 0.000 sclean3track= 0 eff = 0.000 sclean4track= 0 eff = 0.000 "Any" means one or more hits per scint plane. "Good" means one or two hits per scint plane. anyss1x = 0 eff = 0.000 BAD = .99 anyss1y = 0 eff = 0.000 BAD = .99 anyss2x = 0 eff = 0.000 BAD = .99 anyss2y = 0 eff = 0.000 BAD = .99 goodss1x = 0 eff = 0.000 BAD = .98 goodss1y = 0 eff = 0.000 BAD = .98 goodss1 = 0 eff = 0.000 BAD = .96 goodss2x = 0 eff = 0.000 BAD = .98 goodss2y = 0 eff = 0.000 BAD = .98 goodss2 = 0 eff = 0.000 BAD = .96 goodss1s2 = 0 eff = 0.000 ******************** * HARDWARE SCALERS * ******************** General Format: signal = counts ( rate-Hz ) Time of run = 0.0 sec sS1X+ sS1X1+ = 0 [ 0.0 ] sS1X2+ = 0 [ 0.0 ] sS1X3+ = 0 [ 0.0 ] sS1X4+ = 0 [ 0.0 ] sS1X5+ = 0 [ 0.0 ] sS1X6+ = 0 [ 0.0 ] sS1X7+ = 0 [ 0.0 ] sS1X8+ = 0 [ 0.0 ] sS1X9+ = 0 [ 0.0 ] sS1X- sS1X1- = 0 [ 0.0 ] sS1X2- = 0 [ 0.0 ] sS1X3- = 0 [ 0.0 ] sS1X4- = 0 [ 0.0 ] sS1X5- = 0 [ 0.0 ] sS1X6- = 0 [ 0.0 ] sS1X7- = 0 [ 0.0 ] sS1X8- = 0 [ 0.0 ] sS1X9- = 0 [ 0.0 ] sS1Y+ sS1Y1+ = 0 [ 0.0 ] sS1Y2+ = 0 [ 0.0 ] sS1Y3+ = 0 [ 0.0 ] sS1Y4+ = 0 [ 0.0 ] sS1Y5+ = 0 [ 0.0 ] sS1Y6+ = 0 [ 0.0 ] sS1Y7+ = 0 [ 0.0 ] sS1Y8+ = 0 [ 0.0 ] sS1Y9+ = 0 [ 0.0 ] sS1Y- sS1Y1- = 0 [ 0.0 ] sS1Y2- = 0 [ 0.0 ] sS1Y3- = 0 [ 0.0 ] sS1Y4- = 0 [ 0.0 ] sS1Y5- = 0 [ 0.0 ] sS1Y6- = 0 [ 0.0 ] sS1Y7- = 0 [ 0.0 ] sS1Y8- = 0 [ 0.0 ] sS1Y9- = 0 [ 0.0 ] sS2X+ sS2X1+ = 0 [ 0.0 ] sS2X2+ = 0 [ 0.0 ] sS2X3+ = 0 [ 0.0 ] sS2X4+ = 0 [ 0.0 ] sS2X5+ = 0 [ 0.0 ] sS2X6+ = 0 [ 0.0 ] sS2X7+ = 0 [ 0.0 ] sS2X8+ = 0 [ 0.0 ] sS2X9+ = 0 [ 0.0 ] sS2X10+ = 0 [ 0.0 ] sS2X11+ = 0 [ 0.0 ] sS2X12+ = 0 [ 0.0 ] sS2X13+ = 0 [ 0.0 ] sS2X14+ = 0 [ 0.0 ] sS2X15+ = 0 [ 0.0 ] sS2X16+ = 0 [ 0.0 ] sS2X- sS2X1- = 0 [ 0.0 ] sS2X2- = 0 [ 0.0 ] sS2X3- = 0 [ 0.0 ] sS2X4- = 0 [ 0.0 ] sS2X5- = 0 [ 0.0 ] sS2X6- = 0 [ 0.0 ] sS2X7- = 0 [ 0.0 ] sS2X8- = 0 [ 0.0 ] sS2X9- = 0 [ 0.0 ] sS2X10- = 0 [ 0.0 ] sS2X11- = 0 [ 0.0 ] sS2X12- = 0 [ 0.0 ] sS2X13- = 0 [ 0.0 ] sS2X14- = 0 [ 0.0 ] sS2X15- = 0 [ 0.0 ] sS2X16- = 0 [ 0.0 ] sS2Y+ sS2Y1+ = 0 [ 0.0 ] sS2Y2+ = 0 [ 0.0 ] sS2Y3+ = 0 [ 0.0 ] sS2Y4+ = 0 [ 0.0 ] sS2Y5+ = 0 [ 0.0 ] sS2Y6+ = 0 [ 0.0 ] sS2Y7+ = 0 [ 0.0 ] sS2Y8+ = 0 [ 0.0 ] sS2Y9+ = 0 [ 0.0 ] sS2Y- sS2Y1- = 0 [ 0.0 ] sS2Y2- = 0 [ 0.0 ] sS2Y3- = 0 [ 0.0 ] sS2Y4- = 0 [ 0.0 ] sS2Y5- = 0 [ 0.0 ] sS2Y6- = 0 [ 0.0 ] sS2Y7- = 0 [ 0.0 ] sS2Y8- = 0 [ 0.0 ] sS2Y9- = 0 [ 0.0 ] DA0C sCALA = 0 [ 0.0 ] sCALB = 0 [ 0.0 ] sCALC = 0 [ 0.0 ] sCALD = 0 [ 0.0 ] DA15 SOFTWARE SCALERS ('efficiency') sS1X = 0 [ 0.0 ] 0 ( 0.000 ) sS1Y = 0 [ 0.0 ] 0 ( 0.000 ) sS2X = 0 [ 0.0 ] 0 ( 0.000 ) sS2Y = 0 [ 0.0 ] 0 ( 0.000 ) sS1 = 0 [ 0.0 ] 0 ( 0.000 ) sS2 = 0 [ 0.0 ] 0 ( 0.000 ) ---- = 0 [ 0 ] 0 ( 0.000 ) RF?? = [ 0 ] 0 ( 0.000 ) HMSPRE = 0 [ 0.0 ] 0 ( 0.000 ) HMSPRE_SYNC = 0 [ 0.0 ] 0 ( 0.000 ) SOSPRE = 0 [ 0.0 ] 0 ( 0.000 ) SOSPRE_SYNC = 0 [ 0.0 ] 0 ( 0.000 ) COINPRE = 0 [ 0.0 ] 0 ( 0.000 ) COINPRE_SYNC = 0 [ 0.0 ] 0 ( 0.000 ) PEDPRE = 0 [ 0.0 ] 0 ( 0.000 ) HMSTRG = 0 [ 0.0 ] 0 ( 0.000 ) HMSTRG_SYNC = 0 [ 0.0 ] 0 ( 0.000 ) SOSTRG = 0 [ 0.0 ] 0 ( 0.000 ) SOSTRG_SYNC = 0 [ 0.0 ] 0 ( 0.000 ) COINTRG = 0 [ 0.0 ] 0 ( 0.000 ) COINTRG_SYNC = 0 [ 0.0 ] 0 ( 0.000 ) PEDTRG = 0 [ 0.0 ] 0 ( 0.000 ) The above coinpre/cointrg miss a few % of the random coincidences DA13 sS1 = 0 [ 0.0 ] 0 ( 0.000 ) sS2 = 0 [ 0.0 ] 0 ( 0.000 ) sS1X = 0 [ 0.0 ] 0 ( 0.000 ) sS1Y = 0 [ 0.0 ] 0 ( 0.000 ) sS2X = 0 [ 0.0 ] 0 ( 0.000 ) sS2Y = 0 [ 0.0 ] 0 ( 0.000 ) sPRE50 = 0 [ 0.0 ] 0 ( 0.000 ) sPRE100 = 0 [ 0.0 ] 0 ( 0.000 ) sPRE150 = 0 [ 0.0 ] 0 ( 0.000 ) sPRE200 = 0 [ 0.0 ] 0 ( 0.000 ) sSTOF = 0 [ 0.0 ] 0 ( 0.000 ) sSCIN = 0 [ 0.0 ] 0 ( 0.000 ) sELREAL = 0 [ 0.0 ] 0 ( 0.000 ) sPIPRE = 0 [ 0.0 ] 0 ( 0.000 ) sELBOTH = 0 [ 0.0 ] 0 ( 0.000 ) sPRETRG = 0 [ 0.0 ] 0 ( 0.000 ) DA14 BCM1 = [ 0 ] 0 ( 0.000 ) BCM2 = [ 0 ] 0 ( 0.000 ) BCM3 = [ 0 ] 0 ( 0.000 ) UNZER = [ 0 ] 0 ( 0.000 ) 1 MHz = [ 0 ] 0 ( 0.000 ) MHz&BG = [ 0 ] 0 ( 0.000 ) sPIONSCAL= 0 [ 0.0 ] 0 ( 0.000 ) sELECSCAL= 0 [ 0.0 ] 0 ( 0.000 ) sPION = 0 [ 0.0 ] 0 ( 0.000 ) sCER = 0 [ 0.0 ] 0 ( 0.000 ) sELHI = 0 [ 0.0 ] 0 ( 0.000 ) sELLO = 0 [ 0.0 ] 0 ( 0.000 ) sPRHI = 0 [ 0.0 ] 0 ( 0.000 ) sPRLO = 0 [ 0.0 ] 0 ( 0.000 ) sSHLO = 0 [ 0.0 ] 0 ( 0.000 ) sADCGATES= 0 [ 0.0 ] 0 ( 0.000 ) RF(25ps)?=(software scaler only) 0 ( 0.000 ) ********** *SUMMARY * ********** time = 0 sec goodsdc1 eff = 0 eff = 0.000 BAD = .90 goodsdc2 eff = 0 eff = 0.000 BAD = .90 ss1x 1/2 eff = 0.000 BAD = .99 ss1y 1/2 eff = 0.000 BAD = .99 ss2x 1/2 eff = 0.000 BAD = .99 ss2y 1/2 eff = 0.000 BAD = .99 I_avg Q_tot Q_tot (microAmps) (microCoulombs) (microAmp-hours) BCM1 0.000 0.000 0.000 BCM2 0.000 0.000 0.000 BCM3 0.000 0.000 0.000 spretriggers = 0 [ 0.0 ] striggers = 0 [ 0.0 ] sadcgates = 0 [ 0.0 ] ! real # of triggers Computer D.T.= -0.00% 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 = 0 Tracks found = scleantrack = 0 Tracks passing chisquared cut = 0 Scint POS eff NEG eff OR eff AND eff Hits ----- ------- ------- ------ ------- ---- sS1X1 0.000 0.000 0.000 0.000 0 sS1X2 0.000 0.000 0.000 0.000 0 sS1X3 0.000 0.000 0.000 0.000 0 sS1X4 0.000 0.000 0.000 0.000 0 sS1X5 0.000 0.000 0.000 0.000 0 sS1X6 0.000 0.000 0.000 0.000 0 sS1X7 0.000 0.000 0.000 0.000 0 sS1X8 0.000 0.000 0.000 0.000 0 sS1X9 0.000 0.000 0.000 0.000 0 sS1Y1 0.000 0.000 0.000 0.000 0 sS1Y2 0.000 0.000 0.000 0.000 0 sS1Y3 0.000 0.000 0.000 0.000 0 sS1Y4 0.000 0.000 0.000 0.000 0 sS1Y5 0.000 0.000 0.000 0.000 0 sS1Y6 0.000 0.000 0.000 0.000 0 sS1Y7 0.000 0.000 0.000 0.000 0 sS1Y8 0.000 0.000 0.000 0.000 0 sS1Y9 0.000 0.000 0.000 0.000 0 sS2X1 0.000 0.000 0.000 0.000 0 sS2X2 0.000 0.000 0.000 0.000 0 sS2X3 0.000 0.000 0.000 0.000 0 sS2X4 0.000 0.000 0.000 0.000 0 sS2X5 0.000 0.000 0.000 0.000 0 sS2X6 0.000 0.000 0.000 0.000 0 sS2X7 0.000 0.000 0.000 0.000 0 sS2X8 0.000 0.000 0.000 0.000 0 sS2X9 0.000 0.000 0.000 0.000 0 sS2X10 0.000 0.000 0.000 0.000 0 sS2X11 0.000 0.000 0.000 0.000 0 sS2X12 0.000 0.000 0.000 0.000 0 sS2X13 0.000 0.000 0.000 0.000 0 sS2X14 0.000 0.000 0.000 0.000 0 sS2X15 0.000 0.000 0.000 0.000 0 sS2X16 0.000 0.000 0.000 0.000 0 sS2Y1 0.000 0.000 0.000 0.000 0 sS2Y2 0.000 0.000 0.000 0.000 0 sS2Y3 0.000 0.000 0.000 0.000 0 sS2Y4 0.000 0.000 0.000 0.000 0 sS2Y5 0.000 0.000 0.000 0.000 0 sS2Y6 0.000 0.000 0.000 0.000 0 sS2Y7 0.000 0.000 0.000 0.000 0 sS2Y8 0.000 0.000 0.000 0.000 0 sS2Y9 0.000 0.000 0.000 0.000 0 all sS1X 0.000 0.000 0.000 0.000 0 all sS1Y 0.000 0.000 0.000 0.000 0 all sS2X 0.000 0.000 0.000 0.000 0 all sS2Y 0.000 0.000 0.000 0.000 0 Calculted Trigger efficiencies: sS1 : 0.000 sS2 : 0.000 sSTOF : 0.000 3/4 : 0.000 4/4 : 0.000 ************************* * 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 = 0 of 0 good tracks. Mirror 2 Efficiency = 1.000 = 0 of 0 good tracks. Mirror 3 Efficiency = 1.000 = 0 of 0 good tracks. Mirror 4 Efficiency = 1.000 = 0 of 0 good tracks. Overall Efficiency = 1.000 = 0 of 0 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 = 0 Tracks found = scleantrack = 0 Tracks passing chisquared cut = 0 Block eff Hits ----- --- ---- sA1 0.000 0 sA2 0.000 0 sA3 0.000 0 sA4 0.000 0 sA5 0.000 0 sA6 0.000 0 sA7 0.000 0 sA8 0.000 0 sA9 0.000 0 sA10 0.000 0 sA11 0.000 0 sB1 0.000 0 sB2 0.000 0 sB3 0.000 0 sB4 0.000 0 sB5 0.000 0 sB6 0.000 0 sB7 0.000 0 sB8 0.000 0 sB9 0.000 0 sB10 0.000 0 sB11 0.000 0 sC1 0.000 0 sC2 0.000 0 sC3 0.000 0 sC4 0.000 0 sC5 0.000 0 sC6 0.000 0 sC7 0.000 0 sC8 0.000 0 sC9 0.000 0 sC10 0.000 0 sC11 0.000 0 sD1 0.000 0 sD2 0.000 0 sD3 0.000 0 sD4 0.000 0 sD5 0.000 0 sD6 0.000 0 sD7 0.000 0 sD8 0.000 0 sD9 0.000 0 sD10 0.000 0 sD11 0.000 0 sA 0.000 0 sB 0.000 0 sC 0.000 0 sD 0.000 0