************************************************************ * * * STANDARD OUTPUT * * * ************************************************************ Number of files processed = 1 File name PRJ$ROOT211:[TRIGGER_FEST.MONITOR]MONITOR_080556_01.X_ZRD01;1 Number of events skipped = 0 Number of events processed = 10 Number of events read = 10 Number of runs processed = 1 Run= 0, Number of events skipped = 0 Number of events processed = 10 Number of events read = 10 Last event read: Run 80556 Event 310 Total number of events read = 10 Total number of events processed = 10 NUMBER OF RECORDS WRITTEN TO STA FILE 0 NUMBER OF RECORDS WRITTEN TO DST FILE 0 Error messages received : 7 WAMONLY IS TRUE 1 TIMES !FILTER_EVENT IS FALSE. 1 TIMES CAD THERE 10 TIMES FAIL_HITFIND 0 TIMES GZFIND_CRATE CANT FIND CRATE 81 0 TIMES L2_PRESCALE 0 TIMES L2_VERT 0 TIMES 1------------------------------------------------------------------------------ L1SIM RUN PARAMETERS -------------------- Programming File: D0GSLB$DKA100:[D0PRODUCTION.L2PROD.NEW]TRIGGER.INFO;1 Trigger Resource File: D0GSLB$DKA100:[D0PRODUCTION.L2PROD.NEW]TRIGGER.RES;1 Lookup Table File: D0GSLB$DKA100:[D0PRODUCTION.L2PROD]CALORIMETER_TRIGGER.LSO;1 Input data was taken from TRGR banks. ZEBRA Path: RECO Trigger programming listing was added to the summary file. Fast Calorimeter algorithm was not used. Noise was not added to Energy From Calorimeter Banks. Prescaling Ratios were ignored. BLS Gain Correction Coefficients were ignored. BLS Gain Correction File: D0GSLB$DKA100:[D0PRODUCTION.L2PROD]BLS.DAT;1 The Level 0 Vertex was ignored, the Center Level 1 Lookup Page was always used Andor Terms Forced to known state CALNE_PLS FALSE LV1_DBL_BUFFERED FALSE SKIP_ONE_BEAMX TRUE Andor Terms copied from input event SC_VETO_CNFM_BAR FZS FZN MR_VETO_HIGH MR_VETO_LOW MRBS_AND_MICROBL MRBS_LOSS MICRO_BLANK MIN_BIAS L0_SLOW_INTER L0_MI_FLAG_0 L0_MI_FLAG_1 L0_MI_FLAG_2 L0_MI_FLAG_3 BUNCH_P1 BUNCH_P2 BUNCH_P3 BUNCH_P4 BUNCH_P5 BUNCH_P6 Trigger Tower Saturation Values |ETA| EM GeV HD GeV --------------------- 1 62.00 62.00 2 62.00 62.00 3 62.00 62.00 4 62.00 62.00 5 62.00 62.00 6 62.00 62.00 7 62.00 62.00 8 62.00 62.00 9 62.00 62.00 10 62.00 62.00 11 62.00 62.00 12 62.00 62.00 13 62.00 52.50 14 48.50 43.00 15 39.00 35.00 16 31.50 27.50 17 29.00 29.00 18 23.00 23.00 19 16.00 16.00 20 0.00 11.00 Level 1.5 decision was certified on each event (i.e. NOT like hardware) Level 0 Crate copied from input event to output Jet Lists not written to output event 1 ------------------------------------------------------------------------------ Level 1 and Level 1.5 Run Statistics ------------------------------------ Events Processed : 10 Global Statistics ----------------- Events Passed by Level 1 and Level 1.5 : 10/ 10 = 100.0 % Pure Level 1 Events Passed : 1/ 10 = 10.0 % Potential Events For Level 1.5 : 9/ 10 = 90.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 9 = 0.0 % Events Submitted to Level 1.5 : 9/ 9 = 100.0 % Events Confirmed by Level 1.5 : 7/ 9 = 77.8 % Events Rejected by Level 1.5 : 2/ 9 = 22.2 % Specific Trigger # 0: Unused -------------------- Specific Trigger # 1: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 2/ 10 = 20.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 2 = 0.0 % Events Submitted to Level 1.5 : 2/ 2 = 100.0 % Events Confirmed by Level 1.5 : 0/ 2 = 0.0 % Events Rejected by Level 1.5 : 2/ 2 = 100.0 % Total Events Passed : 0/ 10 = 0.0 % Specific Trigger # 2: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 1/ 10 = 10.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 1 = 0.0 % Events Submitted to Level 1.5 : 1/ 1 = 100.0 % Events Confirmed by Level 1.5 : 0/ 1 = 0.0 % Events Rejected by Level 1.5 : 1/ 1 = 100.0 % Total Events Passed : 0/ 10 = 0.0 % Specific Trigger # 3: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 0/ 10 = 0.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 0 = 0.0 % Events Submitted to Level 1.5 : 0/ 0 = 0.0 % Events Confirmed by Level 1.5 : 0/ 0 = 0.0 % Events Rejected by Level 1.5 : 0/ 0 = 0.0 % Total Events Passed : 0/ 10 = 0.0 % Specific Trigger # 4: Pure Level 1 -------------------- Total Events Passed : 0/ 10 = 0.0 % Specific Trigger # 5: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 0/ 10 = 0.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 0 = 0.0 % Events Submitted to Level 1.5 : 0/ 0 = 0.0 % Events Confirmed by Level 1.5 : 0/ 0 = 0.0 % Events Rejected by Level 1.5 : 0/ 0 = 0.0 % Total Events Passed : 0/ 10 = 0.0 % Specific Trigger # 6: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 0/ 10 = 0.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 0 = 0.0 % Events Submitted to Level 1.5 : 0/ 0 = 0.0 % Events Confirmed by Level 1.5 : 0/ 0 = 0.0 % Events Rejected by Level 1.5 : 0/ 0 = 0.0 % Total Events Passed : 0/ 10 = 0.0 % Specific Trigger # 7: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 3/ 10 = 30.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 3 = 0.0 % Events Submitted to Level 1.5 : 3/ 3 = 100.0 % Events Confirmed by Level 1.5 : 1/ 3 = 33.3 % Events Rejected by Level 1.5 : 2/ 3 = 66.7 % Total Events Passed : 1/ 10 = 10.0 % Specific Trigger # 8: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 4/ 10 = 40.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 4 = 0.0 % Events Submitted to Level 1.5 : 4/ 4 = 100.0 % Events Confirmed by Level 1.5 : 2/ 4 = 50.0 % Events Rejected by Level 1.5 : 2/ 4 = 50.0 % Total Events Passed : 2/ 10 = 20.0 % Specific Trigger # 9: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 2/ 10 = 20.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 2 = 0.0 % Events Submitted to Level 1.5 : 2/ 2 = 100.0 % Events Confirmed by Level 1.5 : 1/ 2 = 50.0 % Events Rejected by Level 1.5 : 1/ 2 = 50.0 % Total Events Passed : 1/ 10 = 10.0 % Specific Trigger #10: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 6/ 10 = 60.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 6 = 0.0 % Events Submitted to Level 1.5 : 6/ 6 = 100.0 % Events Confirmed by Level 1.5 : 6/ 6 = 100.0 % Events Rejected by Level 1.5 : 0/ 6 = 0.0 % Total Events Passed : 6/ 10 = 60.0 % Specific Trigger #11: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 1/ 10 = 10.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 1 = 0.0 % Events Submitted to Level 1.5 : 1/ 1 = 100.0 % Events Confirmed by Level 1.5 : 1/ 1 = 100.0 % Events Rejected by Level 1.5 : 0/ 1 = 0.0 % Total Events Passed : 1/ 10 = 10.0 % Specific Trigger #12: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 0/ 10 = 0.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 0 = 0.0 % Events Submitted to Level 1.5 : 0/ 0 = 0.0 % Events Confirmed by Level 1.5 : 0/ 0 = 0.0 % Events Rejected by Level 1.5 : 0/ 0 = 0.0 % Total Events Passed : 0/ 10 = 0.0 % Specific Trigger #13: Uses Level 1.5 -------------------- Potential Events For Level 1.5 : 1/ 10 = 10.0 % Events Passed With Level 1.5 Decision Skipped : 0/ 1 = 0.0 % Events Submitted to Level 1.5 : 1/ 1 = 100.0 % Events Confirmed by Level 1.5 : 0/ 1 = 0.0 % Events Rejected by Level 1.5 : 1/ 1 = 100.0 % Total Events Passed : 0/ 10 = 0.0 % Specific Trigger #14: Pure Level 1 -------------------- Total Events Passed : 0/ 10 = 0.0 % Specific Trigger #15: Pure Level 1 -------------------- Total Events Passed : 1/ 10 = 10.0 % Specific Trigger #16: Pure Level 1 -------------------- Total Events Passed : 1/ 10 = 10.0 % Specific Trigger #17: Pure Level 1 -------------------- Total Events Passed : 3/ 10 = 30.0 % Specific Trigger #18: Pure Level 1 -------------------- Total Events Passed : 0/ 10 = 0.0 % Specific Trigger #19: Pure Level 1 -------------------- Total Events Passed : 1/ 10 = 10.0 % Specific Trigger #20: Pure Level 1 -------------------- Total Events Passed : 1/ 10 = 10.0 % Specific Trigger #21: Pure Level 1 -------------------- Total Events Passed : 0/ 10 = 0.0 % Specific Trigger #22: Pure Level 1 -------------------- Total Events Passed : 3/ 10 = 30.0 % Specific Trigger #23: Pure Level 1 -------------------- Total Events Passed : 0/ 10 = 0.0 % Specific Trigger #24: Pure Level 1 -------------------- Total Events Passed : 1/ 10 = 10.0 % Specific Trigger #25: Pure Level 1 -------------------- Total Events Passed : 1/ 10 = 10.0 % Specific Trigger #26: Pure Level 1 -------------------- Total Events Passed : 0/ 10 = 0.0 % Specific Trigger #27: Pure Level 1 -------------------- Total Events Passed : 0/ 10 = 0.0 % Specific Trigger #28: Pure Level 1 -------------------- Total Events Passed : 10/ 10 = 100.0 % Specific Trigger #29: Pure Level 1 -------------------- Total Events Passed : 0/ 10 = 0.0 % Specific Trigger #30: Pure Level 1 -------------------- Total Events Passed : 9/ 10 = 90.0 % Specific Trigger #31: Unused -------------------- 1 ---------------------------------------------------------------------------------------------------------------------------------- CALORIMETER TRIGGER DEFINITION ------------------------------ Programming of each Specific Trigger ------------------------------------ *** WARNING *** Prescaling ratios were ignored. Specific Trigger # 0 Unused Specific Trigger # 1 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 32 require = L1M_MUCOUNT_CMP_0 # 64 require = L0_FAST_Z_GOOD # 71 require = L0_SLOW_INTER # 72 require = L0_SLOW_Z_GOOD # 73 require = L0_MI_FLAG_0 # 95 veto = SC_VETO_CNFM_BAR #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #212 require = L1C_LT_CNT_0_GE1 This is a Level 1.5 Specific Trigger Level 1.5 Terms Term # 0: L15M_MUPT_CMP_0 Specific Trigger # 2 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 33 require = L1M_MUCOUNT_CMP_1 # 64 require = L0_FAST_Z_GOOD # 71 require = L0_SLOW_INTER # 72 require = L0_SLOW_Z_GOOD # 73 require = L0_MI_FLAG_0 # 95 veto = SC_VETO_CNFM_BAR #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK This is a Level 1.5 Specific Trigger Level 1.5 Terms Term # 0: L15M_MUPT_CMP_0 Specific Trigger # 3 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 34 require = L1M_MUCOUNT_CMP_2 # 64 require = L0_FAST_Z_GOOD # 95 veto = SC_VETO_CNFM_BAR #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK This is a Level 1.5 Specific Trigger Level 1.5 Terms Term # 1: L15M_MUPT_CMP_1 Specific Trigger # 4 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 35 require = L1M_MUCOUNT_CMP_3 # 64 require = L0_FAST_Z_GOOD # 95 veto = SC_VETO_CNFM_BAR #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK Specific Trigger # 5 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 36 require = L1M_MUCOUNT_CMP_4 # 64 require = L0_FAST_Z_GOOD # 95 veto = SC_VETO_CNFM_BAR #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK This is a Level 1.5 Specific Trigger Level 1.5 Terms Term # 2: L15M_MUPT_CMP_2 Specific Trigger # 6 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 37 require = L1M_MUCOUNT_CMP_5 # 64 require = L0_FAST_Z_GOOD # 95 veto = SC_VETO_CNFM_BAR #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK This is a Level 1.5 Specific Trigger Level 1.5 Terms Term # 3: L15M_MUPT_CMP_3 Specific Trigger # 7 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 32 require = L1M_MUCOUNT_CMP_0 # 64 require = L0_FAST_Z_GOOD # 71 require = L0_SLOW_INTER # 72 require = L0_SLOW_Z_GOOD # 73 require = L0_MI_FLAG_0 #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK This is a Level 1.5 Specific Trigger Level 1.5 Terms Term # 0: L15M_MUPT_CMP_0 Specific Trigger # 8 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #119 veto = MR_VETO_LOW #121 veto = MRBS_AND_MICROBL #176 require = L1C_EMETCNT_REF_0_CMP_0 .GE. 1 towers #180 require = L1C_EMETCNT_REF_1_CMP_0 .GE. 1 towers #192 require = L1C_TOTETCNT_REF_0_CMP_0 .GE. 1 towers This is a Level 1.5 Specific Trigger Level 1.5 Terms Term #16: L15C_CT_0_TRM_0 Specific Trigger # 9 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #121 veto = MRBS_AND_MICROBL #180 require = L1C_EMETCNT_REF_1_CMP_0 .GE. 1 towers #184 require = L1C_EMETCNT_REF_2_CMP_0 .GE. 2 towers #192 require = L1C_TOTETCNT_REF_0_CMP_0 .GE. 1 towers This is a Level 1.5 Specific Trigger Level 1.5 Terms Term #17: L15C_CT_0_TRM_1 Specific Trigger #10 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #119 veto = MR_VETO_LOW #121 veto = MRBS_AND_MICROBL #180 require = L1C_EMETCNT_REF_1_CMP_0 .GE. 1 towers #185 require = L1C_EMETCNT_REF_2_CMP_1 .GE. 1 towers #192 require = L1C_TOTETCNT_REF_0_CMP_0 .GE. 1 towers This is a Level 1.5 Specific Trigger Level 1.5 Terms Term #18: L15C_CT_0_TRM_2 Specific Trigger #11 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #121 veto = MRBS_AND_MICROBL #180 require = L1C_EMETCNT_REF_1_CMP_0 .GE. 1 towers #188 require = L1C_EMETCNT_REF_3_CMP_0 .GE. 1 towers #192 require = L1C_TOTETCNT_REF_0_CMP_0 .GE. 1 towers #196 require = L1C_TOTETCNT_REF_1_CMP_0 .GE. 2 towers This is a Level 1.5 Specific Trigger Level 1.5 Terms Term #18: L15C_CT_0_TRM_2 Specific Trigger #12 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 36 require = L1M_MUCOUNT_CMP_4 # 64 require = L0_FAST_Z_GOOD # 95 veto = SC_VETO_CNFM_BAR #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #119 veto = MR_VETO_LOW #121 veto = MRBS_AND_MICROBL #180 require = L1C_EMETCNT_REF_1_CMP_0 .GE. 1 towers #185 require = L1C_EMETCNT_REF_2_CMP_1 .GE. 1 towers This is a Level 1.5 Specific Trigger Level 1.5 Terms Term # 1: L15M_MUPT_CMP_1 Specific Trigger #13 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 36 require = L1M_MUCOUNT_CMP_4 # 64 require = L0_FAST_Z_GOOD # 95 veto = SC_VETO_CNFM_BAR #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #119 veto = MR_VETO_LOW #121 veto = MRBS_AND_MICROBL #192 require = L1C_TOTETCNT_REF_0_CMP_0 .GE. 1 towers #197 require = L1C_TOTETCNT_REF_1_CMP_1 .GE. 1 towers This is a Level 1.5 Specific Trigger Level 1.5 Terms Term # 2: L15M_MUPT_CMP_2 Specific Trigger #14 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 37 require = L1M_MUCOUNT_CMP_5 # 64 require = L0_FAST_Z_GOOD # 95 veto = SC_VETO_CNFM_BAR #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #119 veto = MR_VETO_LOW #121 veto = MRBS_AND_MICROBL #192 require = L1C_TOTETCNT_REF_0_CMP_0 .GE. 1 towers #197 require = L1C_TOTETCNT_REF_1_CMP_1 .GE. 1 towers Specific Trigger #15 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #121 veto = MRBS_AND_MICROBL #192 require = L1C_TOTETCNT_REF_0_CMP_0 .GE. 1 towers #208 require = L1C_TOTETCNT_REF_2_CMP_0 .GE. 3 towers #217 require = L1C_LT_CNT_1_GE3 Specific Trigger #16 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #217 require = L1C_LT_CNT_1_GE3 Specific Trigger #17 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #192 require = L1C_TOTETCNT_REF_0_CMP_0 .GE. 1 towers #204 require = L1C_TOTETCNT_REF_3_CMP_0 .GE. 2 towers Specific Trigger #18 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #156 require = L1C_MISPTSUM_CMP_0 .GE. 40.00 GeV #205 require = L1C_TOTETCNT_REF_3_CMP_1 .GE. 1 towers Specific Trigger #19 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #157 require = L1C_MISPTSUM_CMP_1 .GE. 20.00 GeV #206 require = L1C_TOTETCNT_REF_3_CMP_2 .GE. 3 towers Specific Trigger #20 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD # 71 require = L0_SLOW_INTER # 72 require = L0_SLOW_Z_GOOD # 73 require = L0_MI_FLAG_0 #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #158 require = L1C_MISPTSUM_CMP_2 .GE. 16.00 GeV #192 require = L1C_TOTETCNT_REF_0_CMP_0 .GE. 1 towers #201 require = L1C_TOTETCNT_REF_2_CMP_1 .GE. 1 towers Specific Trigger #21 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD # 71 require = L0_SLOW_INTER # 72 require = L0_SLOW_Z_GOOD # 73 require = L0_MI_FLAG_0 #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #218 require = L1C_LT_CNT_2_GE1 #221 require = L1C_LT_CNT_3_GE1 Specific Trigger #22 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD # 71 require = L0_SLOW_INTER # 72 require = L0_SLOW_Z_GOOD # 73 require = L0_MI_FLAG_0 #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #221 require = L1C_LT_CNT_3_GE1 #224 require = L1C_LT_CNT_4_GE1 Specific Trigger #23 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD # 71 require = L0_SLOW_INTER # 72 require = L0_SLOW_Z_GOOD # 73 require = L0_MI_FLAG_0 #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #192 require = L1C_TOTETCNT_REF_0_CMP_0 .GE. 1 towers #213 require = L1C_LT_CNT_0_GE2 #221 require = L1C_LT_CNT_3_GE1 #227 veto = L1C_LT_CNT_5_GE1 Specific Trigger #24 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #222 require = L1C_LT_CNT_3_GE2 #230 require = L1C_LT_CNT_6_GE1 Specific Trigger #25 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 require = L0_FAST_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #119 veto = MR_VETO_LOW #121 veto = MRBS_AND_MICROBL #213 require = L1C_LT_CNT_0_GE2 #233 require = L1C_LT_CNT_7_GE1 Specific Trigger #26 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 veto = L0_FAST_Z_GOOD # 71 veto = L0_SLOW_INTER # 72 veto = L0_SLOW_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #222 require = L1C_LT_CNT_3_GE2 Specific Trigger #27 Prescale Ratio = 100000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS # 64 veto = L0_FAST_Z_GOOD # 71 veto = L0_SLOW_INTER # 72 veto = L0_SLOW_Z_GOOD #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #113 veto = FZS #114 veto = FZN #124 veto = MRBS_LOSS #125 veto = MICRO_BLANK #222 require = L1C_LT_CNT_3_GE2 Specific Trigger #28 Prescale Ratio = 250000 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #121 veto = MRBS_AND_MICROBL Specific Trigger #29 Prescale Ratio = 1 Start digitize Geographic Sections : None Andor Terms # 28 require = CALNE_PLS #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #121 veto = MRBS_AND_MICROBL Specific Trigger #30 Prescale Ratio = 1 Start digitize Geographic Sections : None Andor Terms # 28 veto = CALNE_PLS #104 veto = LV1_DBL_BUFFERED #107 require = SKIP_ONE_BEAMX #124 veto = MRBS_LOSS Specific Trigger #31 Unused Definition of Trigger Tower Reference Sets ------------------------------------------ EM Et Ref Set # 0 ------------------- eta_sign positive and negative eta_magnitude 1 to 19 phi 1 to 32 EM Et Threshold = .GE. 10.00 GeV HD Et Veto = None eta_magnitude 20 phi 1 to 32 No Contribution EM Et Ref Set # 1 ------------------- eta_sign positive and negative eta_magnitude 1 to 19 phi 1 to 32 EM Et Threshold = .GE. 2.50 GeV HD Et Veto = None eta_magnitude 20 phi 1 to 32 No Contribution EM Et Ref Set # 2 ------------------- eta_sign positive and negative eta_magnitude 1 to 19 phi 1 to 32 EM Et Threshold = .GE. 7.00 GeV HD Et Veto = None eta_magnitude 20 phi 1 to 32 No Contribution EM Et Ref Set # 3 ------------------- eta_sign positive and negative eta_magnitude 1 to 13 phi 1 to 32 EM Et Threshold = .GE. 12.00 GeV HD Et Veto = None eta_magnitude 14 to 20 phi 1 to 32 No Contribution TOT Et Ref Set # 0 ------------------- eta_sign positive and negative eta_magnitude 1 to 20 phi 1 to 32 TOT Threshold = .GE. 3.00 GeV TOT Et Ref Set # 1 ------------------- eta_sign positive and negative eta_magnitude 1 to 10 phi 1 to 32 TOT Threshold = .GE. 5.00 GeV eta_magnitude 11 to 20 phi 1 to 32 No Contribution TOT Et Ref Set # 2 ------------------- eta_sign positive and negative eta_magnitude 1 to 13 phi 1 to 32 TOT Threshold = .GE. 7.00 GeV eta_magnitude 14 to 20 phi 1 to 32 No Contribution TOT Et Ref Set # 3 ------------------- eta_sign positive and negative eta_magnitude 1 to 20 phi 1 to 32 TOT Threshold = .GE. 5.00 GeV Definition of Large Tile Reference Sets --------------------------------------- Large Tile Ref Set # 0 ------------------- eta_sign positive and negative eta_magnitude 1 to 20 phi 1 to 32 LT Threshold = .GE. 10.00 GeV Large Tile Ref Set # 1 ------------------- eta_sign positive and negative eta_magnitude 1 to 12 phi 1 to 32 LT Threshold = .GE. 15.00 GeV eta_magnitude 13 to 20 phi 1 to 32 LT Threshold = .GE. 1000.00 GeV Large Tile Ref Set # 2 ------------------- eta_sign positive and negative eta_magnitude 1 to 12 phi 1 to 32 LT Threshold = .GE. 1000.00 GeV eta_magnitude 13 to 20 phi 1 to 32 LT Threshold = .GE. 22.00 GeV Large Tile Ref Set # 3 ------------------- eta_sign positive and negative eta_magnitude 1 to 20 phi 1 to 32 LT Threshold = .GE. 6.00 GeV Large Tile Ref Set # 4 ------------------- eta_sign positive and negative eta_magnitude 1 to 20 phi 1 to 32 LT Threshold = .GE. 15.00 GeV Large Tile Ref Set # 5 ------------------- eta_sign positive and negative eta_magnitude 1 to 8 phi 1 to 32 LT Threshold = .GE. 5.00 GeV eta_magnitude 9 to 20 phi 1 to 32 LT Threshold = .GE. 1000.00 GeV Large Tile Ref Set # 6 ------------------- eta_sign positive and negative eta_magnitude 1 to 20 phi 1 to 32 LT Threshold = .GE. 35.00 GeV Large Tile Ref Set # 7 ------------------- eta_sign positive and negative eta_magnitude 1 to 20 phi 1 to 32 LT Threshold = .GE. 45.00 GeV 1 ---------------------------------------------------------------------------------------------------------------------------------- Specific Triggers used in each Reference Set -------------------------------------------- EM Et Ref Set #0 used in Sp.Trig. # 8 EM Et Ref Set #1 used in Sp.Trig. # 8 9 10 11 12 EM Et Ref Set #2 used in Sp.Trig. # 9 10 12 EM Et Ref Set #3 used in Sp.Trig. # 11 TOT Et Ref Set #0 used in Sp.Trig. # 8 9 10 11 13 14 15 17 20 23 TOT Et Ref Set #1 used in Sp.Trig. # 11 13 14 TOT Et Ref Set #2 used in Sp.Trig. # 15 20 TOT Et Ref Set #3 used in Sp.Trig. # 17 18 19 LT Ref Set #0 used in Sp.Trig. # 1 23 25 LT Ref Set #1 used in Sp.Trig. # 15 16 LT Ref Set #2 used in Sp.Trig. # 21 LT Ref Set #3 used in Sp.Trig. # 21 22 23 24 26 27 LT Ref Set #4 used in Sp.Trig. # 22 LT Ref Set #5 used in Sp.Trig. # 23 LT Ref Set #6 used in Sp.Trig. # 24 LT Ref Set #7 used in Sp.Trig. # 25 Energy Summing Tree Offsets --------------------------- EM Et 15424 ADC count = 3856.00 GeV HD Et 15424 ADC count = 3856.00 GeV TOT Et 0 ADC count = 0.00 GeV EM 2nd 10240 ADC count = 2560.00 GeV HD 2nd 15424 ADC count = 3856.00 GeV TOT 2nd 0 ADC count = 0.00 GeV Global Sum Threshold Definitions -------------------------------- EM Et Energy Sum Andor Term #128 : Energy Threshold # 0 : unused (L1C_EMETSUM_CMP_0) Andor Term #129 : Energy Threshold # 1 : unused (L1C_EMETSUM_CMP_1) Andor Term #130 : Energy Threshold # 2 : unused (L1C_EMETSUM_CMP_2) Andor Term #131 : Energy Threshold # 3 : unused (L1C_EMETSUM_CMP_3) Andor Term #132 : Energy Threshold # 4 : unused (L1C_EMETSUM_CMP_4) Andor Term #133 : Energy Threshold # 5 : unused (L1C_EMETSUM_CMP_5) Andor Term #134 : Energy Threshold # 6 : unused (L1C_EMETSUM_CMP_6) Andor Term #135 : Energy Threshold # 7 : unused (L1C_EMETSUM_CMP_7) HD Et Energy Sum Andor Term #136 : Energy Threshold # 0 : unused (L1C_HDETSUM_CMP_0) Andor Term #137 : Energy Threshold # 1 : unused (L1C_HDETSUM_CMP_1) Andor Term #138 : Energy Threshold # 2 : unused (L1C_HDETSUM_CMP_2) Andor Term #139 : Energy Threshold # 3 : unused (L1C_HDETSUM_CMP_3) Andor Term #140 : Energy Threshold # 4 : unused (L1C_HDETSUM_CMP_4) Andor Term #141 : Energy Threshold # 5 : unused (L1C_HDETSUM_CMP_5) Andor Term #142 : Energy Threshold # 6 : unused (L1C_HDETSUM_CMP_6) Andor Term #143 : Energy Threshold # 7 : unused (L1C_HDETSUM_CMP_7) TOT Et Energy Sum Andor Term #144 : Energy Threshold # 0 : unused (L1C_TOTETSUM_CMP_0) Andor Term #145 : Energy Threshold # 1 : unused (L1C_TOTETSUM_CMP_1) Andor Term #146 : Energy Threshold # 2 : unused (L1C_TOTETSUM_CMP_2) Andor Term #147 : Energy Threshold # 3 : unused (L1C_TOTETSUM_CMP_3) Andor Term #148 : Energy Threshold # 4 : unused (L1C_TOTETSUM_CMP_4) Andor Term #149 : Energy Threshold # 5 : unused (L1C_TOTETSUM_CMP_5) Andor Term #150 : Energy Threshold # 6 : unused (L1C_TOTETSUM_CMP_6) Andor Term #151 : Energy Threshold # 7 : unused (L1C_TOTETSUM_CMP_7) Andor Term #152 : Energy Threshold # 8 : unused (L1C_TOTETSUM_CMP_8) Andor Term #153 : Energy Threshold # 9 : unused (L1C_TOTETSUM_CMP_9) Andor Term #154 : Energy Threshold #10 : unused (L1C_TOTETSUM_CMP_10) Andor Term #155 : Energy Threshold #11 : unused (L1C_TOTETSUM_CMP_11) EM 2nd Energy Sum Andor Term #164 : Energy Threshold # 0 : unused (L1C_EML2SUM_CMP_0) Andor Term #165 : Energy Threshold # 1 : unused (L1C_EML2SUM_CMP_1) Andor Term #166 : Energy Threshold # 2 : unused (L1C_EML2SUM_CMP_2) Andor Term #167 : Energy Threshold # 3 : unused (L1C_EML2SUM_CMP_3) HD 2nd Energy Sum Andor Term #168 : Energy Threshold # 0 : unused (L1C_HDL2SUM_CMP_0) Andor Term #169 : Energy Threshold # 1 : unused (L1C_HDL2SUM_CMP_1) Andor Term #170 : Energy Threshold # 2 : unused (L1C_HDL2SUM_CMP_2) Andor Term #171 : Energy Threshold # 3 : unused (L1C_HDL2SUM_CMP_3) TOT 2nd Energy Sum Andor Term #172 : Energy Threshold # 0 : unused (L1C_TOTL2SUM_CMP_0) Andor Term #173 : Energy Threshold # 1 : unused (L1C_TOTL2SUM_CMP_1) Andor Term #174 : Energy Threshold # 2 : unused (L1C_TOTL2SUM_CMP_2) Andor Term #175 : Energy Threshold # 3 : unused (L1C_TOTL2SUM_CMP_3) Mis Pt Energy Sum Andor Term #156 : Energy Threshold # 0 : 80 ADC Count = 40.00 GeV (L1C_MISPTSUM_CMP_0) Andor Term #157 : Energy Threshold # 1 : 40 ADC Count = 20.00 GeV (L1C_MISPTSUM_CMP_1) Andor Term #158 : Energy Threshold # 2 : 32 ADC Count = 16.00 GeV (L1C_MISPTSUM_CMP_2) Andor Term #159 : Energy Threshold # 3 : unused (L1C_MISPTSUM_CMP_3) Andor Term #160 : Energy Threshold # 4 : unused (L1C_MISPTSUM_CMP_4) Andor Term #161 : Energy Threshold # 5 : unused (L1C_MISPTSUM_CMP_5) Andor Term #162 : Energy Threshold # 6 : unused (L1C_MISPTSUM_CMP_6) Andor Term #163 : Energy Threshold # 7 : unused (L1C_MISPTSUM_CMP_7) EM Et Ref Set # 0 Andor Term #176 : Tower Count Threshold # 0 : 1 Trigger Towers (L1C_EMETCNT_REF_0_CMP_0) Andor Term #177 : Tower Count Threshold # 1 : Unused (L1C_EMETCNT_REF_0_CMP_1) Andor Term #178 : Tower Count Threshold # 2 : Unused (L1C_EMETCNT_REF_0_CMP_2) Andor Term #179 : Tower Count Threshold # 3 : Unused (L1C_EMETCNT_REF_0_CMP_3) EM Et Ref Set # 1 Andor Term #180 : Tower Count Threshold # 0 : 1 Trigger Towers (L1C_EMETCNT_REF_1_CMP_0) Andor Term #181 : Tower Count Threshold # 1 : Unused (L1C_EMETCNT_REF_1_CMP_1) Andor Term #182 : Tower Count Threshold # 2 : Unused (L1C_EMETCNT_REF_1_CMP_2) Andor Term #183 : Tower Count Threshold # 3 : Unused (L1C_EMETCNT_REF_1_CMP_3) EM Et Ref Set # 2 Andor Term #184 : Tower Count Threshold # 0 : 2 Trigger Towers (L1C_EMETCNT_REF_2_CMP_0) Andor Term #185 : Tower Count Threshold # 1 : 1 Trigger Towers (L1C_EMETCNT_REF_2_CMP_1) Andor Term #186 : Tower Count Threshold # 2 : Unused (L1C_EMETCNT_REF_2_CMP_2) Andor Term #187 : Tower Count Threshold # 3 : Unused (L1C_EMETCNT_REF_2_CMP_3) EM Et Ref Set # 3 Andor Term #188 : Tower Count Threshold # 0 : 1 Trigger Towers (L1C_EMETCNT_REF_3_CMP_0) Andor Term #189 : Tower Count Threshold # 1 : Unused (L1C_EMETCNT_REF_3_CMP_1) Andor Term #190 : Tower Count Threshold # 2 : Unused (L1C_EMETCNT_REF_3_CMP_2) Andor Term #191 : Tower Count Threshold # 3 : Unused (L1C_EMETCNT_REF_3_CMP_3) TOT Et Ref Set # 0 Andor Term #192 : Tower Count Threshold # 0 : 1 Trigger Towers (L1C_TOTETCNT_REF_0_CMP_0) Andor Term #193 : Tower Count Threshold # 1 : Unused (L1C_TOTETCNT_REF_0_CMP_1) Andor Term #194 : Tower Count Threshold # 2 : Unused (L1C_TOTETCNT_REF_0_CMP_2) Andor Term #195 : Tower Count Threshold # 3 : Unused (L1C_TOTETCNT_REF_0_CMP_3) TOT Et Ref Set # 1 Andor Term #196 : Tower Count Threshold # 0 : 2 Trigger Towers (L1C_TOTETCNT_REF_1_CMP_0) Andor Term #197 : Tower Count Threshold # 1 : 1 Trigger Towers (L1C_TOTETCNT_REF_1_CMP_1) Andor Term #198 : Tower Count Threshold # 2 : Unused (L1C_TOTETCNT_REF_1_CMP_2) Andor Term #199 : Tower Count Threshold # 3 : Unused (L1C_TOTETCNT_REF_1_CMP_3) TOT Et Ref Set # 2 Andor Term #208 : Tower Count Threshold # 0 : 3 Trigger Towers (L1C_TOTETCNT_REF_2_CMP_0) Andor Term #201 : Tower Count Threshold # 1 : 1 Trigger Towers (L1C_TOTETCNT_REF_2_CMP_1) Andor Term #202 : Tower Count Threshold # 2 : Unused (L1C_TOTETCNT_REF_2_CMP_2) Andor Term #203 : Tower Count Threshold # 3 : Unused (L1C_TOTETCNT_REF_2_CMP_3) TOT Et Ref Set # 3 Andor Term #204 : Tower Count Threshold # 0 : 2 Trigger Towers (L1C_TOTETCNT_REF_3_CMP_0) Andor Term #205 : Tower Count Threshold # 1 : 1 Trigger Towers (L1C_TOTETCNT_REF_3_CMP_1) Andor Term #206 : Tower Count Threshold # 2 : 3 Trigger Towers (L1C_TOTETCNT_REF_3_CMP_2) Andor Term #207 : Tower Count Threshold # 3 : Unused (L1C_TOTETCNT_REF_3_CMP_3) Other available Level 1 Andor Terms ----------------------------------- Andor Term #122: ASTUB_1 (Not simulated by L1SIM) Andor Term #123: ASTUB_2 (Not simulated by L1SIM) Andor Term # 96: BUNCH_P1 Andor Term # 97: BUNCH_P2 Andor Term # 98: BUNCH_P3 Andor Term # 99: BUNCH_P4 Andor Term #100: BUNCH_P5 Andor Term #101: BUNCH_P6 Andor Term # 26: CALCN_PLS (Not simulated by L1SIM) Andor Term # 29: CALCS_PLS (Not simulated by L1SIM) Andor Term # 28: CALNE_PLS Andor Term # 27: CALNW_PLS (Not simulated by L1SIM) Andor Term # 30: CALSE_PLS (Not simulated by L1SIM) Andor Term # 31: CALSW_PLS (Not simulated by L1SIM) Andor Term #120: CAL_RECOVERY (Not simulated by L1SIM) Andor Term # 88: CCT0 (Not simulated by L1SIM) Andor Term # 89: CCT1 (Not simulated by L1SIM) Andor Term # 90: CCT2 (Not simulated by L1SIM) Andor Term # 91: CCT3 (Not simulated by L1SIM) Andor Term # 92: CCT4 (Not simulated by L1SIM) Andor Term # 81: CCT7 (Not simulated by L1SIM) Andor Term # 19: CDC_DEL_PLS (Not simulated by L1SIM) Andor Term # 17: CDC_ESW_PLS (Not simulated by L1SIM) Andor Term # 18: CDC_WSW_PLS (Not simulated by L1SIM) Andor Term # 80: CD_PULS (Not simulated by L1SIM) Andor Term # 21: FDC_NP_PLS (Not simulated by L1SIM) Andor Term # 20: FDC_NT_PLS (Not simulated by L1SIM) Andor Term # 23: FDC_SP_PLS (Not simulated by L1SIM) Andor Term # 22: FDC_ST_PLS (Not simulated by L1SIM) Andor Term #114: FZN Andor Term #113: FZS Andor Term # 65: L0_CENTER_1 Andor Term # 70: L0_FAST_Z_CENTER Andor Term # 64: L0_FAST_Z_GOOD Andor Term # 73: L0_MI_FLAG_0 Andor Term # 74: L0_MI_FLAG_1 Andor Term # 75: L0_MI_FLAG_2 Andor Term # 76: L0_MI_FLAG_3 Andor Term # 71: L0_SLOW_INTER Andor Term # 77: L0_SLOW_Z_CENTER Andor Term # 72: L0_SLOW_Z_GOOD Andor Term #103: L1C_FAKE_EVENT (Not simulated by L1SIM) Andor Term # 66: L1C_LKP_CENTER_3 Andor Term # 67: L1C_LKP_CENTER_5 Andor Term # 68: L1C_LKP_CENTER_7 Andor Term # 69: L1C_LKP_NEG_Z Andor Term #212: L1C_LT_CNT_0_GE1 Andor Term #213: L1C_LT_CNT_0_GE2 Andor Term #214: L1C_LT_CNT_0_GE3 Andor Term #215: L1C_LT_CNT_1_GE1 Andor Term #216: L1C_LT_CNT_1_GE2 Andor Term #217: L1C_LT_CNT_1_GE3 Andor Term #218: L1C_LT_CNT_2_GE1 Andor Term #219: L1C_LT_CNT_2_GE2 Andor Term #220: L1C_LT_CNT_2_GE3 Andor Term #221: L1C_LT_CNT_3_GE1 Andor Term #222: L1C_LT_CNT_3_GE2 Andor Term #223: L1C_LT_CNT_3_GE3 Andor Term #224: L1C_LT_CNT_4_GE1 Andor Term #225: L1C_LT_CNT_4_GE2 Andor Term #226: L1C_LT_CNT_4_GE3 Andor Term #227: L1C_LT_CNT_5_GE1 Andor Term #228: L1C_LT_CNT_5_GE2 Andor Term #229: L1C_LT_CNT_5_GE3 Andor Term #230: L1C_LT_CNT_6_GE1 Andor Term #231: L1C_LT_CNT_6_GE2 Andor Term #232: L1C_LT_CNT_6_GE3 Andor Term #233: L1C_LT_CNT_7_GE1 Andor Term #234: L1C_LT_CNT_7_GE2 Andor Term #235: L1C_LT_CNT_7_GE3 Andor Term # 32: L1M_MUCOUNT_CMP_0 Andor Term # 33: L1M_MUCOUNT_CMP_1 Andor Term # 42: L1M_MUCOUNT_CMP_10 Andor Term # 43: L1M_MUCOUNT_CMP_11 Andor Term # 44: L1M_MUCOUNT_CMP_12 Andor Term # 45: L1M_MUCOUNT_CMP_13 Andor Term # 46: L1M_MUCOUNT_CMP_14 Andor Term # 47: L1M_MUCOUNT_CMP_15 Andor Term # 34: L1M_MUCOUNT_CMP_2 Andor Term # 35: L1M_MUCOUNT_CMP_3 Andor Term # 36: L1M_MUCOUNT_CMP_4 Andor Term # 37: L1M_MUCOUNT_CMP_5 Andor Term # 38: L1M_MUCOUNT_CMP_6 Andor Term # 39: L1M_MUCOUNT_CMP_7 Andor Term # 40: L1M_MUCOUNT_CMP_8 Andor Term # 41: L1M_MUCOUNT_CMP_9 Andor Term #127: LV0_HALOP (Not simulated by L1SIM) Andor Term #118: LV0_HALOPB (Not simulated by L1SIM) Andor Term # 0: LV0_LSR_PLS (Not simulated by L1SIM) Andor Term #110: LV15_OPERATIONAL (Not simulated by L1SIM) Andor Term #104: LV1_DBL_BUFFERED Andor Term #106: LV1_READ_PIPE_A (Not simulated by L1SIM) Andor Term #105: LV1_WRITE_PIPE_A (Not simulated by L1SIM) Andor Term #125: MICRO_BLANK Andor Term #126: MIN_BIAS Andor Term #121: MRBS_AND_MICROBL Andor Term #124: MRBS_LOSS Andor Term #116: MR_PERMIT (Not simulated by L1SIM) Andor Term #112: MR_SPARE_16 (Not simulated by L1SIM) Andor Term #115: MR_VETO_HIGH Andor Term #119: MR_VETO_LOW Andor Term # 2: MU_CFE_PLS (Not simulated by L1SIM) Andor Term # 3: MU_CFW_PLS (Not simulated by L1SIM) Andor Term # 4: MU_CFX_PLS (Not simulated by L1SIM) Andor Term # 5: MU_EFN_PLS (Not simulated by L1SIM) Andor Term # 6: MU_EFS_PLS (Not simulated by L1SIM) Andor Term #117: MU_HV_RECOVERY (Not simulated by L1SIM) Andor Term # 12: MU_SAN_PLS (Not simulated by L1SIM) Andor Term # 13: MU_SAS_PLS (Not simulated by L1SIM) Andor Term # 7: MU_SFN_PLS (Not simulated by L1SIM) Andor Term # 8: MU_SFS_PLS (Not simulated by L1SIM) Andor Term # 9: MU_WAC_PLS (Not simulated by L1SIM) Andor Term # 10: MU_WAN_PLS (Not simulated by L1SIM) Andor Term # 11: MU_WAS_PLS (Not simulated by L1SIM) Andor Term # 93: SCINT_CONFIRM (Not simulated by L1SIM) Andor Term # 94: SCINT_VETO (Not simulated by L1SIM) Andor Term # 84: SCT0 (Not simulated by L1SIM) Andor Term # 85: SCT1 (Not simulated by L1SIM) Andor Term # 86: SCT2 (Not simulated by L1SIM) Andor Term # 87: SCT3 (Not simulated by L1SIM) Andor Term # 83: SCT4 (Not simulated by L1SIM) Andor Term # 82: SCT7 (Not simulated by L1SIM) Andor Term # 95: SC_VETO_CNFM_BAR Andor Term #107: SKIP_ONE_BEAMX Andor Term #109: SKIP_TEN_BEAMX (Not simulated by L1SIM) Andor Term #108: SKIP_TWO_BEAMX (Not simulated by L1SIM) Andor Term # 1: TERM_1 (Not simulated by L1SIM) Andor Term # 24: TRD_ANO_PLS (Not simulated by L1SIM) Andor Term # 25: TRD_CAT_PLS (Not simulated by L1SIM) Andor Term # 14: VTX_L0_PLS (Not simulated by L1SIM) Andor Term # 15: VTX_L1_PLS (Not simulated by L1SIM) Andor Term # 16: VTX_L2_PLS (Not simulated by L1SIM) Andor Term #102: ZERO_BIAS Available Level 1.5 Terms ------------------------- Term # 0: L15M_MUPT_CMP_0 Term # 1: L15M_MUPT_CMP_1 Term # 2: L15M_MUPT_CMP_2 Term # 3: L15M_MUPT_CMP_3 Term # 4: L15M_MUPT_CMP_4 Term # 5: L15M_MUPT_CMP_5 Term # 6: L15M_MUPT_CMP_6 Term # 7: L15M_MUPT_CMP_7 Term # 16: L15C_CT_0_TRM_0 Term # 17: L15C_CT_0_TRM_1 Term # 18: L15C_CT_0_TRM_2 Term # 19: L15C_CT_0_TRM_3 Term # 20: L15C_CT_0_TRM_4 Term # 21: L15C_CT_0_TRM_5 Term # 22: L15C_CT_0_TRM_6 Term # 23: L15C_CT_0_TRM_7 ---------------------------------------------------------------------------------------------------------------------------------- 1 FILTER REPORT AT SUMMARY TIME ------------------------------- #Try/ Pass Time RMS Time/ Counts or Evt #Pass/ #Try= Rate (ms) (ms) Total mubarns ---- ---- ---- ---- ---- ---- ----- --------- L1 bit 1 MU_1_LO_JET 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 1 MU_1_LO_JET 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 460] to Monitor Stream #26 L2_PRESCALE Set 1 0/ 0= 0.0% # 2 L2_CONFIRM_L Set 1 0/ 0= 0.0% #12 MUON_L2 Set 1 0/ 0= 0.0% #22 L2SETUP Set 1 0/ 0= 0.0% L2 bit 32 DIMU_LO_JET 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 # 2 L2_CONFIRM_L Set 2 0/ 0= 0.0% #12 MUON_L2 Set 2 0/ 0= 0.0% #12 MUON_L2 Set 3 0/ 0= 0.0% L1 bit 2 MU_2_LOW_Y4 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 2 MU_2_LOW_Y4 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 16000] to Monitor Stream # 2 L2_CONFIRM_L Set 3 0/ 0= 0.0% #12 MUON_L2 Set 4 0/ 0= 0.0% #12 MUON_L2 Set 5 0/ 0= 0.0% L1 bit 3 MU_2_LOW 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 3 MU_2_LOW 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 13000] to Monitor Stream # 2 L2_CONFIRM_L Set 4 0/ 0= 0.0% #12 MUON_L2 Set 6 0/ 0= 0.0% #12 MUON_L2 Set 7 0/ 0= 0.0% L1 bit 4 MU_2_CENT 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 4 MU_2_CENT 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 6800] to Monitor Stream #12 MUON_L2 Set 8 0/ 0= 0.0% #12 MUON_L2 Set 9 0/ 0= 0.0% L1 bit 5 MU_1_HIGH 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 5 MU_1_MAX 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 3600] to Monitor Stream # 2 L2_CONFIRM_L Set 5 0/ 0= 0.0% #12 MUON_L2 Set 10 0/ 0= 0.0% L2 bit 33 MU_1_HIGH 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 2 0/ 0= 0.0% # 2 L2_CONFIRM_L Set 6 0/ 0= 0.0% #12 MUON_L2 Set 11 0/ 0= 0.0% L2 bit 34 MU_1_MON 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 3 0/ 0= 0.0% # 2 L2_CONFIRM_L Set 7 0/ 0= 0.0% #12 MUON_L2 Set 12 0/ 0= 0.0% L1 bit 6 MU_1_CENT 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 6 MU_1_CENT_MAX 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 6300] to Monitor Stream # 2 L2_CONFIRM_L Set 8 0/ 0= 0.0% #12 MUON_L2 Set 13 0/ 0= 0.0% L2 bit 35 MU_2_CENT_MAX 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 # 2 L2_CONFIRM_L Set 9 0/ 0= 0.0% #12 MUON_L2 Set 14 0/ 0= 0.0% #12 MUON_L2 Set 15 0/ 0= 0.0% L1 bit 7 MU_1_LOW 0.10 0/ 1= 0.0% 300.0 0.0 8.8% 1.00 ======================== L2 bit 7 MU_1_LOW 0.10 0/ 1= 0.0% 280.0 0.0 8.2% 0.000E+00 [Pass_1_of 2000] to Monitor Stream # 2 L2_CONFIRM_L Set 10 1/ 1=100.0% #12 MUON_L2 Set 16 0/ 1= 0.0% L2 bit 36 MU_1_LOW_NOSCI0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 #26 L2_PRESCALE Set 4 1/ 1=100.0% # 2 L2_CONFIRM_L Set 11 1/ 1=100.0% #12 MUON_L2 Set 17 0/ 1= 0.0% L2 bit 37 MU_1_LOW_NOCAL0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 #26 L2_PRESCALE Set 5 1/ 1=100.0% # 2 L2_CONFIRM_L Set 12 1/ 1=100.0% #12 MUON_L2 Set 18 0/ 1= 0.0% L2 bit 38 MU_1_LOW_GOOD 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 6 0/ 1= 0.0% # 2 L2_CONFIRM_L Set 13 0/ 0= 0.0% #12 MUON_L2 Set 19 0/ 0= 0.0% L2 bit 39 MU_1_LOW_TRKAL0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 7 0/ 1= 0.0% # 2 L2_CONFIRM_L Set 14 0/ 0= 0.0% #12 MUON_L2 Set 20 0/ 0= 0.0% L1 bit 8 EM_1_HIGH 0.20 0/ 2= 0.0% 65.0 18.7 3.8% 2.00 ======================== L2 bit 8 EM1_EISTRKCC_M0.20 0/ 2= 0.0% 25.0 7.1 1.5% 0.000E+00 [Pass_1_of 3200] to Monitor Stream # 2 L2_CONFIRM_L Set 15 2/ 2=100.0% #17 L2_EM Set 1 0/ 2= 0.0% #18 L2ETMISS Set 1 0/ 0= 0.0% L2 bit 40 EM1_EISTRK_MS 0.20 0/ 2= 0.0% 5.0 7.1 0.3% 0.000E+00 # 2 L2_CONFIRM_L Set 16 2/ 2=100.0% #17 L2_EM Set 2 0/ 2= 0.0% #18 L2ETMISS Set 2 0/ 0= 0.0% L2 bit 41 EM1_EISTRKCC_E0.20 0/ 2= 0.0% 5.0 7.1 0.3% 0.000E+00 # 2 L2_CONFIRM_L Set 17 2/ 2=100.0% #17 L2_EM Set 3 0/ 2= 0.0% #17 L2_EM Set 4 0/ 0= 0.0% L2 bit 42 EM1_ESC 0.20 0/ 2= 0.0% 5.0 7.1 0.3% 0.000E+00 # 2 L2_CONFIRM_L Set 18 2/ 2=100.0% #17 L2_EM Set 5 0/ 2= 0.0% L2 bit 43 EM1_GIS 0.20 0/ 2= 0.0% 5.0 7.1 0.3% 0.000E+00 #26 L2_PRESCALE Set 8 2/ 2=100.0% # 2 L2_CONFIRM_L Set 19 2/ 2=100.0% #17 L2_EM Set 6 0/ 2= 0.0% L2 bit 44 EM1_GIS_HIGH 0.20 0/ 2= 0.0% 0.0 0.0 0.0% 0.000E+00 # 2 L2_CONFIRM_L Set 20 2/ 2=100.0% #17 L2_EM Set 7 0/ 2= 0.0% L2 bit 45 GIS_DIJET 0.20 0/ 2= 0.0% 5.0 7.1 0.3% 0.000E+00 # 2 L2_CONFIRM_L Set 21 2/ 2=100.0% #17 L2_EM Set 8 0/ 2= 0.0% #27 L2_ETACUT Set 1 0/ 0= 0.0% #10 L2JETS Set 1 0/ 0= 0.0% #27 L2_ETACUT Set 2 0/ 0= 0.0% #35 L2_SUMJET Set 1 0/ 0= 0.0% L2 bit 46 GIS_DIJET_QCD 0.20 0/ 2= 0.0% 5.0 7.1 0.3% 0.000E+00 #26 L2_PRESCALE Set 9 0/ 2= 0.0% # 2 L2_CONFIRM_L Set 22 0/ 0= 0.0% #17 L2_EM Set 9 0/ 0= 0.0% #27 L2_ETACUT Set 3 0/ 0= 0.0% #10 L2JETS Set 2 0/ 0= 0.0% #27 L2_ETACUT Set 4 0/ 0= 0.0% L2 bit 47 EM1_ELE_MS_MON0.20 0/ 2= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 10 2/ 2=100.0% # 2 L2_CONFIRM_L Set 23 2/ 2=100.0% #17 L2_EM Set 10 0/ 2= 0.0% #18 L2ETMISS Set 3 0/ 0= 0.0% L2 bit 48 EM1_ELE_MON 0.20 0/ 2= 0.0% 10.0 0.0 0.6% 0.000E+00 #26 L2_PRESCALE Set 11 2/ 2=100.0% # 2 L2_CONFIRM_L Set 24 2/ 2=100.0% #17 L2_EM Set 11 0/ 2= 0.0% L1 bit 9 EM_2_MED 0.10 0/ 1= 0.0% 90.0 0.0 2.6% 1.00 ======================== L2 bit 9 EM2_EIS_MS 0.10 0/ 1= 0.0% 30.0 0.0 0.9% 0.000E+00 [Pass_1_of 2600] to Monitor Stream # 2 L2_CONFIRM_L Set 25 1/ 1=100.0% #17 L2_EM Set 12 0/ 1= 0.0% #18 L2ETMISS Set 4 0/ 0= 0.0% L2 bit 49 EM2_EIS2_HI 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 # 2 L2_CONFIRM_L Set 26 1/ 1=100.0% #17 L2_EM Set 13 0/ 1= 0.0% L2 bit 50 EM2_EIS_ESC 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 # 2 L2_CONFIRM_L Set 27 1/ 1=100.0% #17 L2_EM Set 14 0/ 1= 0.0% #17 L2_EM Set 15 0/ 0= 0.0% L2 bit 51 EM2_EIS_ISO 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 # 2 L2_CONFIRM_L Set 28 1/ 1=100.0% #17 L2_EM Set 16 0/ 1= 0.0% #17 L2_EM Set 17 0/ 0= 0.0% L2 bit 52 EM2_EIS_ELE 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 # 2 L2_CONFIRM_L Set 29 1/ 1=100.0% #17 L2_EM Set 18 0/ 1= 0.0% #17 L2_EM Set 19 0/ 0= 0.0% L2 bit 53 EM2_EIS_EIS 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 # 2 L2_CONFIRM_L Set 30 1/ 1=100.0% #17 L2_EM Set 20 0/ 1= 0.0% #17 L2_EM Set 21 0/ 0= 0.0% L2 bit 54 EM2_EISTRKCC_E0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 # 2 L2_CONFIRM_L Set 31 1/ 1=100.0% #17 L2_EM Set 22 0/ 1= 0.0% #17 L2_EM Set 23 0/ 0= 0.0% L2 bit 55 EM2_GIS_GAM 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 #26 L2_PRESCALE Set 12 1/ 1=100.0% # 2 L2_CONFIRM_L Set 32 1/ 1=100.0% #17 L2_EM Set 24 0/ 1= 0.0% #17 L2_EM Set 25 0/ 0= 0.0% L2 bit 56 EM2_2EISTRK_MS0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 # 2 L2_CONFIRM_L Set 33 1/ 1=100.0% #17 L2_EM Set 26 0/ 1= 0.0% #17 L2_EM Set 27 0/ 0= 0.0% #18 L2ETMISS Set 5 0/ 0= 0.0% L2 bit 57 EISTRK2_MON 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 #26 L2_PRESCALE Set 13 1/ 1=100.0% # 2 L2_CONFIRM_L Set 34 1/ 1=100.0% #17 L2_EM Set 28 0/ 1= 0.0% #17 L2_EM Set 29 0/ 0= 0.0% L1 bit 10 EM_1_MON 0.60 1/ 6= 16.7% 65.0 71.4 11.4% 6.00 ======================== L2 bit 10 ELETRK_1_MON 0.60 0/ 6= 0.0% 8.3 11.7 1.5% 0.000E+00 [Pass_1_of 2400] to Monitor Stream #17 L2_EM Set 30 0/ 6= 0.0% L2 bit 58 ELE_1_MON 0.60 0/ 6= 0.0% 1.7 4.1 0.3% 0.000E+00 #17 L2_EM Set 31 0/ 6= 0.0% L2 bit 59 ELE_MISS_JET 0.60 1/ 6= 16.7% 55.0 70.4 9.6% 1.00 #10 L2JETS Set 3 2/ 6= 33.3% #18 L2ETMISS Set 6 1/ 2= 50.0% L1 bit 11 EM_JET 0.10 0/ 1= 0.0% 20.0 0.0 0.6% 1.00 ======================== L2 bit 11 ELE_JET_HIGH 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 [Pass_1_of 6100] to Monitor Stream #17 L2_EM Set 32 0/ 1= 0.0% #27 L2_ETACUT Set 5 0/ 0= 0.0% #10 L2JETS Set 4 0/ 0= 0.0% #27 L2_ETACUT Set 6 0/ 0= 0.0% #18 L2ETMISS Set 7 0/ 0= 0.0% L2 bit 60 ELE_JET_1 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 #17 L2_EM Set 33 0/ 1= 0.0% #10 L2JETS Set 5 0/ 0= 0.0% L2 bit 61 ELE_JET_4_BKG 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 #26 L2_PRESCALE Set 14 0/ 1= 0.0% #10 L2JETS Set 6 0/ 0= 0.0% #10 L2JETS Set 7 0/ 0= 0.0% #27 L2_ETACUT Set 7 0/ 0= 0.0% L2 bit 62 ELE_JET_5_BKG 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 15 1/ 1=100.0% #10 L2JETS Set 8 0/ 1= 0.0% #10 L2JETS Set 9 0/ 0= 0.0% #27 L2_ETACUT Set 8 0/ 0= 0.0% L2 bit 63 ELE_JET_BKG 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 16 0/ 1= 0.0% #17 L2_EM Set 34 0/ 0= 0.0% #27 L2_ETACUT Set 9 0/ 0= 0.0% #10 L2JETS Set 10 0/ 0= 0.0% L1 bit 12 MU_EM_1 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 12 MU_ELE 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 8400] to Monitor Stream # 2 L2_CONFIRM_L Set 35 0/ 0= 0.0% #17 L2_EM Set 35 0/ 0= 0.0% #12 MUON_L2 Set 21 0/ 0= 0.0% L2 bit 64 MU_ELE_BEST 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 # 2 L2_CONFIRM_L Set 36 0/ 0= 0.0% #17 L2_EM Set 36 0/ 0= 0.0% #12 MUON_L2 Set 22 0/ 0= 0.0% L1 bit 13 MU_JET_HIGH 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 13 MU2_JET_HIGH 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 2100] to Monitor Stream # 2 L2_CONFIRM_L Set 37 0/ 0= 0.0% #10 L2JETS Set 11 0/ 0= 0.0% #27 L2_ETACUT Set 10 0/ 0= 0.0% #12 MUON_L2 Set 23 0/ 0= 0.0% #12 MUON_L2 Set 24 0/ 0= 0.0% L2 bit 65 MU_JET_CAL 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 # 2 L2_CONFIRM_L Set 38 0/ 0= 0.0% #10 L2JETS Set 12 0/ 0= 0.0% #27 L2_ETACUT Set 11 0/ 0= 0.0% #12 MUON_L2 Set 25 0/ 0= 0.0% L2 bit 66 MU_JET_HIGH 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 17 0/ 0= 0.0% # 2 L2_CONFIRM_L Set 39 0/ 0= 0.0% #10 L2JETS Set 13 0/ 0= 0.0% #27 L2_ETACUT Set 12 0/ 0= 0.0% #12 MUON_L2 Set 26 0/ 0= 0.0% L1 bit 14 MU_JET_CENT 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 14 DIMU_JET_CENT 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 6700] to Monitor Stream #10 L2JETS Set 14 0/ 0= 0.0% #27 L2_ETACUT Set 13 0/ 0= 0.0% #12 MUON_L2 Set 27 0/ 0= 0.0% #12 MUON_L2 Set 28 0/ 0= 0.0% L2 bit 67 MU_JET_CENCAL 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 #10 L2JETS Set 15 0/ 0= 0.0% #27 L2_ETACUT Set 14 0/ 0= 0.0% #12 MUON_L2 Set 29 0/ 0= 0.0% L2 bit 68 MU_JET_CENT 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 18 0/ 0= 0.0% #10 L2JETS Set 16 0/ 0= 0.0% #27 L2_ETACUT Set 15 0/ 0= 0.0% #12 MUON_L2 Set 30 0/ 0= 0.0% L1 bit 15 JET_MULTI 0.10 0/ 1= 0.0% 40.0 0.0 1.2% 1.00 ======================== L2 bit 15 JET_MULTI 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 1000] to Monitor Stream #10 L2JETS Set 17 0/ 1= 0.0% #27 L2_ETACUT Set 16 0/ 0= 0.0% #35 L2_SUMJET Set 2 0/ 0= 0.0% L2 bit 69 JET_MULTI_X 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 #10 L2JETS Set 18 0/ 1= 0.0% #27 L2_ETACUT Set 17 0/ 0= 0.0% L2 bit 70 JET_MS_MULTI 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 #10 L2JETS Set 19 0/ 1= 0.0% #27 L2_ETACUT Set 18 0/ 0= 0.0% #18 L2ETMISS Set 8 0/ 0= 0.0% L2 bit 71 SCALAR_ET_JT 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 #19 L2ETSUM Set 1 0/ 1= 0.0% L2 bit 72 SCALAR_ET_HT 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 #26 L2_PRESCALE Set 19 0/ 1= 0.0% #10 L2JETS Set 20 0/ 0= 0.0% #35 L2_SUMJET Set 3 0/ 0= 0.0% L2 bit 73 JET_3_MISS_LOW0.10 0/ 1= 0.0% 20.0 0.0 0.6% 0.000E+00 #26 L2_PRESCALE Set 20 1/ 1=100.0% #10 L2JETS Set 21 1/ 1=100.0% #27 L2_ETACUT Set 19 1/ 1=100.0% #18 L2ETMISS Set 9 0/ 1= 0.0% L2 bit 74 JET_3_L2MU 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 21 1/ 1=100.0% #10 L2JETS Set 22 1/ 1=100.0% #27 L2_ETACUT Set 20 1/ 1=100.0% #18 L2ETMISS Set 10 0/ 1= 0.0% #12 MUON_L2 Set 31 0/ 0= 0.0% L2 bit 75 JET_3_HT 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 #26 L2_PRESCALE Set 22 1/ 1=100.0% #10 L2JETS Set 23 1/ 1=100.0% #27 L2_ETACUT Set 21 1/ 1=100.0% #18 L2ETMISS Set 11 0/ 1= 0.0% #35 L2_SUMJET Set 4 0/ 0= 0.0% L1 bit 16 SCALAR_ET 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 1.00 ======================== L2 bit 16 SCALAR_ET 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 25000] to Monitor Stream #19 L2ETSUM Set 2 0/ 1= 0.0% L1 bit 17 JET_2_MED 0.30 1/ 3= 33.3% 16.7 23.8 1.5% 3.00 ======================== L2 bit 17 JET_4_MON 0.30 0/ 3= 0.0% 13.3 23.1 1.2% 0.000E+00 [Pass_1_of 2000] to Monitor Stream #10 L2JETS Set 24 0/ 3= 0.0% L2 bit 76 JET_3_MON 0.30 1/ 3= 33.3% 0.0 0.0 0.0% 1.00 #26 L2_PRESCALE Set 23 1/ 3= 33.3% #10 L2JETS Set 25 1/ 1=100.0% L2 bit 77 JET_4_EM 0.30 0/ 3= 0.0% 3.3 5.8 0.3% 0.000E+00 #10 L2JETS Set 26 0/ 3= 0.0% #10 L2JETS Set 27 0/ 0= 0.0% #27 L2_ETACUT Set 22 0/ 0= 0.0% L2 bit 78 JET_5_EM 0.30 0/ 3= 0.0% 0.0 0.0 0.0% 0.000E+00 #10 L2JETS Set 28 0/ 3= 0.0% #10 L2JETS Set 29 0/ 0= 0.0% #27 L2_ETACUT Set 23 0/ 0= 0.0% L1 bit 18 MISSING_ET 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 18 MISSING_ET 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 2400] to Monitor Stream #18 L2ETMISS Set 12 0/ 0= 0.0% L1 bit 19 JET_3_MISS 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 1.00 ======================== L2 bit 19 JET_3_MISS 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 9200] to Monitor Stream #10 L2JETS Set 30 1/ 1=100.0% #18 L2ETMISS Set 13 0/ 1= 0.0% L2 bit 79 JET_2_MISS 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 #10 L2JETS Set 31 1/ 1=100.0% #10 L2JETS Set 32 1/ 1=100.0% #18 L2ETMISS Set 14 0/ 1= 0.0% #34 L2_ACOL_JETS Set 1 0/ 0= 0.0% L1 bit 20 JET_1_MISS 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 1.00 ======================== L2 bit 20 JET_1_TAU 0.10 0/ 1= 0.0% 10.0 0.0 0.3% 0.000E+00 [Pass_1_of 5900] to Monitor Stream #10 L2JETS Set 33 1/ 1=100.0% #27 L2_ETACUT Set 24 1/ 1=100.0% #18 L2ETMISS Set 15 0/ 1= 0.0% #10 L2JETS Set 34 0/ 0= 0.0% #34 L2_ACOL_JETS Set 2 0/ 0= 0.0% L2 bit 80 JET_MISS_ELE 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 24 0/ 1= 0.0% #10 L2JETS Set 35 0/ 0= 0.0% #18 L2ETMISS Set 16 0/ 0= 0.0% L2 bit 81 JET_1_MISS 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 #26 L2_PRESCALE Set 25 0/ 1= 0.0% #10 L2JETS Set 36 0/ 0= 0.0% #18 L2ETMISS Set 17 0/ 0= 0.0% L1 bit 21 JET_FAR_SUP 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 21 JET_FAR_SUP 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 7800] to Monitor Stream #26 L2_PRESCALE Set 26 0/ 0= 0.0% #10 L2JETS Set 37 0/ 0= 0.0% #27 L2_ETACUT Set 25 0/ 0= 0.0% L2 bit 82 JET_FAR_MAX 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 #10 L2JETS Set 38 0/ 0= 0.0% #27 L2_ETACUT Set 26 0/ 0= 0.0% L1 bit 22 LJT_15 0.30 1/ 3= 33.3% 30.0 17.3 2.6% 3.00 ======================== L2 bit 22 JET_30 0.30 1/ 3= 33.3% 30.0 17.3 2.6% 1.00 [Pass_1_of 650] to Monitor Stream #10 L2JETS Set 39 1/ 3= 33.3% L2 bit 83 JET_50 0.30 1/ 3= 33.3% 0.0 0.0 0.0% 1.00 #10 L2JETS Set 40 1/ 3= 33.3% L1 bit 23 JET_GAP_VETO 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 23 JET_GAP_VLO 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 4000] to Monitor Stream #10 L2JETS Set 41 0/ 0= 0.0% #27 L2_ETACUT Set 27 0/ 0= 0.0% #19 L2ETSUM Set 3 0/ 0= 0.0% L2 bit 84 JET_GAP_VHI 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 #10 L2JETS Set 42 0/ 0= 0.0% #27 L2_ETACUT Set 28 0/ 0= 0.0% L1 bit 24 LJT_35 0.10 1/ 1=100.0% 0.0 0.0 0.0% 1.00 ======================== L2 bit 24 JET_85 0.10 1/ 1=100.0% 0.0 0.0 0.0% 1.00 [Pass_1_of 1700] to Monitor Stream #10 L2JETS Set 43 1/ 1=100.0% L2 bit 85 JET_3_MAX 0.10 1/ 1=100.0% 0.0 0.0 0.0% 1.00 #10 L2JETS Set 44 1/ 1=100.0% #27 L2_ETACUT Set 29 1/ 1=100.0% #10 L2JETS Set 45 1/ 1=100.0% #27 L2_ETACUT Set 30 1/ 1=100.0% L1 bit 25 JET_MAX 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 1.00 ======================== L2 bit 25 JET_MAX 0.10 0/ 1= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 9800] to Monitor Stream #10 L2JETS Set 46 0/ 1= 0.0% L1 bit 26 JET_GAP_SD 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 26 JET_GAP_SD 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 1000] to Monitor Stream #10 L2JETS Set 47 0/ 0= 0.0% L1 bit 27 JET_GAP_POM 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 27 JET_GAP_POM 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 [Pass_1_of 1300] to Monitor Stream #10 L2JETS Set 48 0/ 0= 0.0% L1 bit 28 ZERO_BIAS-V10 1.00 1/ 10= 10.0% 2.0 4.5 0.6% 10.0 ======================== L2 bit 28 ZERO_BIAS-V10 1.00 0/ 10= 0.0% 1.0 3.2 0.3% 0.000E+00 #26 L2_PRESCALE Set 27 0/ 10= 0.0% L2 bit 86 MIN_BIAS-V10 1.00 1/ 10= 10.0% 1.0 3.2 0.3% 1.00 [Pass_1_of 30000] to Monitor Stream #26 L2_PRESCALE Set 28 1/ 10= 10.0% #25 L2_MIN_BIAS Set 1 1/ 1=100.0% L1 bit 29 INSPILL 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 ======================== L2 bit 29 CAL_PULSER 0.00 0/ 0= 0.0% 0.0 0.0 0.0% 0.000E+00 #20 L2_PASS_FAIL Set 1 0/ 0= 0.0% L1 bit 30 LUMIN_MON-V10 0.90 9/ 9=100.0% 0.0 0.0 0.0% 9.00 ======================== L2 bit 30 LUMIN_MON-V10 0.90 9/ 9=100.0% 0.0 0.0 0.0% 9.00 [No Tools: Empty Script = Pass if run] OVERALL Filtering 9/ 10= 90.0% 342.0 218.1 9.00 L1 Bits Set/Event = 4.20 L2 Bits Passed/Event = 1.78 # Scripts/Event = 12.20 T(Sum) Scripts/Filt = 0.336 0 Unbiased = 0.0% of Written; 9 Passed 9 Written 10 Tried 0 Mark_and_Pass 9 L1.5 Monitor 9 In Monitor Stream Cross check: L1.5 Unbiased= 0 L1_Write(30)= 9 Using Luminosity Parameter Set Number 1 in L2_VERT.RCP and CD_HITFIND.RCP . L2SETUP parameters in script list below gives other run conditions. TOOL Results: #Try/ Pass Time RMS Time/ Evt #Pass/ #Try= Rate (ms) (ms) Total --- ---- --- ---- ---- ---- ----- 2 L2_CONFIRM_L15 3.10 31/ 31=100.0% 3.9 12.8 3.5% 10 L2JETS 3.70 15/ 37= 40.5% 5.9 11.4 6.4% 12 MUON_L2 0.30 0/ 3= 0.0% 73.3 118.5 6.4% 17 L2_EM 4.20 0/ 42= 0.0% 5.0 8.6 6.1% 18 L2ETMISS 0.80 1/ 8= 12.5% 32.5 61.1 7.6% 19 L2ETSUM 0.20 0/ 2= 0.0% 0.0 0.0 0.0% 25 L2_MIN_BIAS 0.10 1/ 1=100.0% 0.0 0.0 0.0% 26 L2_PRESCALE 4.60 16/ 46= 34.8% 0.9 2.8 1.2% 27 L2_ETACUT 0.60 6/ 6=100.0% 5.0 5.5 0.9% # Tools Called/Event = 17.60 T(Sum) Tools/Filt = 0.322 1 FILTER PARAMETERS SUMMARY ------------------------- L1 bit 1 MU_1_LO_JET ======================== 1 L2 bit 1 MU_1_LO_JET Script : 1 L2_PRESCALE With Par Set 1 1 L2_PRESCALE_BY 1 1 MED_PRESCALE_BY 20 1 HIGH_PRESCALE_BY 100 1 MAX_PRESCALE_BY 100 1 L2_CONFIRM_L15 With Par Set 1 1 NUM_L15_MUONS 1 1 L15_REGIONS (Y4)_LOW 1 L15_CONFIRM_TYPE MUO 1 MUON_L2 With Par Set 1 1 NUM_MUONS 1 1 PTMIN 1.000 1 ABS_ETA_MAX 9.000 1 MUON_QUALITY BEST 1 TRACK_IN_ROAD L15_(Y4)LOW 1 COSMIC_REJECT F 1 REFIT_T0 F 1 SCINT_ON_TRACK T 1 CAL_ON_TRACK T 1 CD_ON_TRACK F 1 L2SETUP With Par Set 1 1 TIME_SCRIPT T 1 TIME_TOOL T 1 HISTO_SCRIPT F 1 HISTO_TOOL F 1 TIMING_TYPE CPU 1 TMIN_SCRIPT 10.00 1 TMAX_SCRIPT 1010. 1 TMIN_TOOL 10.00 1 TMAX_TOOL 1010. 1 RAW_TO_DROP NONE 1 BANKS_TO_DROP CAEP_MUOH_MUHP_SAMH 1 L2_HITFIND T 1 BANKS_TO_DROP_2 SAPH_MUHM_EMSV_SAMT 32 L2 bit 32 DIMU_LO_JET Script : 32 L2_CONFIRM_L15 With Par Set 2 32 NUM_L15_MUONS 1 32 L15_REGIONS (Y4)_LOW 32 L15_CONFIRM_TYPE MUO 32 MUON_L2 With Par Set 2 32 NUM_MUONS 1 32 PTMIN 1.000 32 ABS_ETA_MAX 9.000 32 MUON_QUALITY BEST 32 TRACK_IN_ROAD L15_(Y4)LOW 32 COSMIC_REJECT F 32 REFIT_T0 F 32 SCINT_ON_TRACK T 32 CAL_ON_TRACK T 32 CD_ON_TRACK F 32 MUON_L2 With Par Set 3 32 NUM_MUONS 2 32 PTMIN 1.000 32 ABS_ETA_MAX 9.000 32 MUON_QUALITY GOOD 32 TRACK_IN_ROAD ALL_(Y4) 32 COSMIC_REJECT F 32 REFIT_T0 F 32 SCINT_ON_TRACK T 32 CAL_ON_TRACK T 32 CD_ON_TRACK F L1 bit 2 MU_2_LOW_Y4 ======================== 2 L2 bit 2 MU_2_LOW_Y4 Script : 2 L2_CONFIRM_L15 With Par Set 3 2 NUM_L15_MUONS 1 2 L15_REGIONS (Y4)_LOW 2 L15_CONFIRM_TYPE MUO 2 MUON_L2 With Par Set 4 2 NUM_MUONS 1 2 PTMIN 1.000 2 ABS_ETA_MAX 9.000 2 MUON_QUALITY BEST 2 TRACK_IN_ROAD L15_(Y4)LOW 2 COSMIC_REJECT F 2 REFIT_T0 F 2 SCINT_ON_TRACK T 2 CAL_ON_TRACK T 2 CD_ON_TRACK F 2 MUON_L2 With Par Set 5 2 NUM_MUONS 2 2 PTMIN 1.000 2 ABS_ETA_MAX 9.000 2 MUON_QUALITY GOOD 2 TRACK_IN_ROAD L10_(Y4) 2 COSMIC_REJECT F 2 REFIT_T0 F 2 SCINT_ON_TRACK T 2 CAL_ON_TRACK T 2 CD_ON_TRACK F L1 bit 3 MU_2_LOW ======================== 3 L2 bit 3 MU_2_LOW Script : 3 L2_CONFIRM_L15 With Par Set 4 3 NUM_L15_MUONS 1 3 L15_REGIONS (Y2)_LOW 3 L15_CONFIRM_TYPE MUO 3 MUON_L2 With Par Set 6 3 NUM_MUONS 1 3 PTMIN 3.000 3 ABS_ETA_MAX 9.000 3 MUON_QUALITY BEST 3 TRACK_IN_ROAD L15_(Y2)LOW 3 COSMIC_REJECT F 3 REFIT_T0 F 3 SCINT_ON_TRACK T 3 CAL_ON_TRACK T 3 CD_ON_TRACK F 3 MUON_L2 With Par Set 7 3 NUM_MUONS 2 3 PTMIN 3.000 3 ABS_ETA_MAX 9.000 3 MUON_QUALITY GOOD 3 TRACK_IN_ROAD L10_(Y2) 3 COSMIC_REJECT F 3 REFIT_T0 F 3 SCINT_ON_TRACK T 3 CAL_ON_TRACK T 3 CD_ON_TRACK F L1 bit 4 MU_2_CENT ======================== 4 L2 bit 4 MU_2_CENT Script : 4 MUON_L2 With Par Set 8 4 NUM_MUONS 1 4 PTMIN 3.000 4 ABS_ETA_MAX 9.000 4 MUON_QUALITY BEST 4 TRACK_IN_ROAD L10_(Y1) 4 COSMIC_REJECT F 4 REFIT_T0 F 4 SCINT_ON_TRACK T 4 CAL_ON_TRACK T 4 CD_ON_TRACK F 4 MUON_L2 With Par Set 9 4 NUM_MUONS 2 4 PTMIN 3.000 4 ABS_ETA_MAX 9.000 4 MUON_QUALITY GOOD 4 TRACK_IN_ROAD L10_(Y1) 4 COSMIC_REJECT F 4 REFIT_T0 F 4 SCINT_ON_TRACK T 4 CAL_ON_TRACK T 4 CD_ON_TRACK F L1 bit 5 MU_1_HIGH ======================== 5 L2 bit 5 MU_1_MAX Script : 5 L2_CONFIRM_L15 With Par Set 5 5 NUM_L15_MUONS 1 5 L15_REGIONS (Y3)_HIGH 5 L15_CONFIRM_TYPE MUO 5 MUON_L2 With Par Set 10 5 NUM_MUONS 1 5 PTMIN 15.00 5 ABS_ETA_MAX 9.000 5 MUON_QUALITY BEST 5 TRACK_IN_ROAD L15_(Y2)HIGH 5 COSMIC_REJECT T 5 REFIT_T0 F 5 SCINT_ON_TRACK T 5 CAL_ON_TRACK T 5 CD_ON_TRACK F 33 L2 bit 33 MU_1_HIGH Script : 33 L2_PRESCALE With Par Set 2 33 L2_PRESCALE_BY 20 33 MED_PRESCALE_BY 20 33 HIGH_PRESCALE_BY 20 33 MAX_PRESCALE_BY 20 33 L2_CONFIRM_L15 With Par Set 6 33 NUM_L15_MUONS 1 33 L15_REGIONS (Y3)_HIGH 33 L15_CONFIRM_TYPE MUO 33 MUON_L2 With Par Set 11 33 NUM_MUONS 1 33 PTMIN 15.00 33 ABS_ETA_MAX 9.000 33 MUON_QUALITY GOOD 33 TRACK_IN_ROAD L10_(Y2) 33 COSMIC_REJECT T 33 REFIT_T0 F 33 SCINT_ON_TRACK T 33 CAL_ON_TRACK T 33 CD_ON_TRACK F 34 L2 bit 34 MU_1_MON Script : 34 L2_PRESCALE With Par Set 3 34 L2_PRESCALE_BY 20 34 MED_PRESCALE_BY 20 34 HIGH_PRESCALE_BY 20 34 MAX_PRESCALE_BY 20 34 L2_CONFIRM_L15 With Par Set 7 34 NUM_L15_MUONS 1 34 L15_REGIONS (Y3)_HIGH 34 L15_CONFIRM_TYPE MUO 34 MUON_L2 With Par Set 12 34 NUM_MUONS 1 34 PTMIN 15.00 34 ABS_ETA_MAX 9.000 34 MUON_QUALITY BEST 34 TRACK_IN_ROAD L10_(Y2) 34 COSMIC_REJECT T 34 REFIT_T0 F 34 SCINT_ON_TRACK T 34 CAL_ON_TRACK F 34 CD_ON_TRACK F L1 bit 6 MU_1_CENT ======================== 6 L2 bit 6 MU_1_CENT_MAX Script : 6 L2_CONFIRM_L15 With Par Set 8 6 NUM_L15_MUONS 1 6 L15_REGIONS (Y1)_HIGH 6 L15_CONFIRM_TYPE MUO 6 MUON_L2 With Par Set 13 6 NUM_MUONS 1 6 PTMIN 15.00 6 ABS_ETA_MAX 9.000 6 MUON_QUALITY BEST 6 TRACK_IN_ROAD L10_(Y1) 6 COSMIC_REJECT T 6 REFIT_T0 F 6 SCINT_ON_TRACK T 6 CAL_ON_TRACK T 6 CD_ON_TRACK F 35 L2 bit 35 MU_2_CENT_MAX Script : 35 L2_CONFIRM_L15 With Par Set 9 35 NUM_L15_MUONS 1 35 L15_REGIONS (Y1)_HIGH 35 L15_CONFIRM_TYPE MUO 35 MUON_L2 With Par Set 14 35 NUM_MUONS 1 35 PTMIN 15.00 35 ABS_ETA_MAX 9.000 35 MUON_QUALITY BEST 35 TRACK_IN_ROAD L10_(Y1) 35 COSMIC_REJECT F 35 REFIT_T0 F 35 SCINT_ON_TRACK T 35 CAL_ON_TRACK T 35 CD_ON_TRACK F 35 MUON_L2 With Par Set 15 35 NUM_MUONS 2 35 PTMIN 10.00 35 ABS_ETA_MAX 9.000 35 MUON_QUALITY GOOD 35 TRACK_IN_ROAD ALL_(Y1) 35 COSMIC_REJECT F 35 REFIT_T0 F 35 SCINT_ON_TRACK T 35 CAL_ON_TRACK T 35 CD_ON_TRACK F L1 bit 7 MU_1_LOW ======================== 7 L2 bit 7 MU_1_LOW Script : 7 L2_CONFIRM_L15 With Par Set 10 7 NUM_L15_MUONS 1 7 L15_REGIONS (Y4)_LOW 7 L15_CONFIRM_TYPE MUO 7 MUON_L2 With Par Set 16 7 NUM_MUONS 1 7 PTMIN 3.000 7 ABS_ETA_MAX 9.000 7 MUON_QUALITY BEST 7 TRACK_IN_ROAD L15_(Y4)LOW 7 COSMIC_REJECT F 7 REFIT_T0 F 7 SCINT_ON_TRACK T 7 CAL_ON_TRACK T 7 CD_ON_TRACK F 36 L2 bit 36 MU_1_LOW_NOSCI Script : 36 L2_PRESCALE With Par Set 4 36 L2_PRESCALE_BY 20 36 MED_PRESCALE_BY 20 36 HIGH_PRESCALE_BY 20 36 MAX_PRESCALE_BY 20 36 L2_CONFIRM_L15 With Par Set 11 36 NUM_L15_MUONS 1 36 L15_REGIONS (Y4)_LOW 36 L15_CONFIRM_TYPE MUO 36 MUON_L2 With Par Set 17 36 NUM_MUONS 1 36 PTMIN 3.000 36 ABS_ETA_MAX 9.000 36 MUON_QUALITY BEST 36 TRACK_IN_ROAD L10_(Y4) 36 COSMIC_REJECT F 36 REFIT_T0 F 36 SCINT_ON_TRACK F 36 CAL_ON_TRACK T 36 CD_ON_TRACK F 37 L2 bit 37 MU_1_LOW_NOCAL Script : 37 L2_PRESCALE With Par Set 5 37 L2_PRESCALE_BY 20 37 MED_PRESCALE_BY 20 37 HIGH_PRESCALE_BY 20 37 MAX_PRESCALE_BY 20 37 L2_CONFIRM_L15 With Par Set 12 37 NUM_L15_MUONS 1 37 L15_REGIONS (Y4)_LOW 37 L15_CONFIRM_TYPE MUO 37 MUON_L2 With Par Set 18 37 NUM_MUONS 1 37 PTMIN 3.000 37 ABS_ETA_MAX 9.000 37 MUON_QUALITY BEST 37 TRACK_IN_ROAD L10_(Y4) 37 COSMIC_REJECT F 37 REFIT_T0 F 37 SCINT_ON_TRACK T 37 CAL_ON_TRACK F 37 CD_ON_TRACK F 38 L2 bit 38 MU_1_LOW_GOOD Script : 38 L2_PRESCALE With Par Set 6 38 L2_PRESCALE_BY 20 38 MED_PRESCALE_BY 20 38 HIGH_PRESCALE_BY 20 38 MAX_PRESCALE_BY 20 38 L2_CONFIRM_L15 With Par Set 13 38 NUM_L15_MUONS 1 38 L15_REGIONS (Y4)_LOW 38 L15_CONFIRM_TYPE MUO 38 MUON_L2 With Par Set 19 38 NUM_MUONS 1 38 PTMIN 3.000 38 ABS_ETA_MAX 9.000 38 MUON_QUALITY GOOD 38 TRACK_IN_ROAD L10_(Y4) 38 COSMIC_REJECT F 38 REFIT_T0 F 38 SCINT_ON_TRACK T 38 CAL_ON_TRACK T 38 CD_ON_TRACK F 39 L2 bit 39 MU_1_LOW_TRKAL Script : 39 L2_PRESCALE With Par Set 7 39 L2_PRESCALE_BY 100 39 MED_PRESCALE_BY 100 39 HIGH_PRESCALE_BY 100 39 MAX_PRESCALE_BY 100 39 L2_CONFIRM_L15 With Par Set 14 39 NUM_L15_MUONS 1 39 L15_REGIONS (Y4)_LOW 39 L15_CONFIRM_TYPE MUO 39 MUON_L2 With Par Set 20 39 NUM_MUONS 1 39 PTMIN 3.000 39 ABS_ETA_MAX 9.000 39 MUON_QUALITY BEST 39 TRACK_IN_ROAD ALL_(Y4) 39 COSMIC_REJECT F 39 REFIT_T0 F 39 SCINT_ON_TRACK T 39 CAL_ON_TRACK T 39 CD_ON_TRACK F L1 bit 8 EM_1_HIGH ======================== 8 L2 bit 8 EM1_EISTRKCC_M Script : 8 L2_CONFIRM_L15 With Par Set 15 8 NUM_L15_MUONS 1 8 L15_REGIONS (CF)_LOW 8 L15_CONFIRM_TYPE CAL 8 L2_EM With Par Set 1 8 NUM_EM 1 8 ETMIN_CC 20.00 8 ETMIN_EC 20.00 8 DEL_ETA_TRACK 0.3000E-01 8 DEL_PHI_TRACK 0.3000E-01 8 SHAPE_CUTS ELECTRON 8 TRACK_MATCH CDC_ONLY 8 DO_ISOLATION T 8 CONE_DELTA_R 0.4000 8 CONE_FRACT_MAX 0.1500 8 L2ETMISS With Par Set 1 8 ETMISS_MIN 15.00 8 ETMISS_SIG_MIN 0.0000E+00 40 L2 bit 40 EM1_EISTRK_MS Script : 40 L2_CONFIRM_L15 With Par Set 16 40 NUM_L15_MUONS 1 40 L15_REGIONS (CF)_LOW 40 L15_CONFIRM_TYPE CAL 40 L2_EM With Par Set 2 40 NUM_EM 1 40 ETMIN_CC 20.00 40 ETMIN_EC 20.00 40 DEL_ETA_TRACK 0.3000E-01 40 DEL_PHI_TRACK 0.3000E-01 40 SHAPE_CUTS ELECTRON 40 TRACK_MATCH REQUIRE 40 DO_ISOLATION T 40 CONE_DELTA_R 0.4000 40 CONE_FRACT_MAX 0.1500 40 L2ETMISS With Par Set 2 40 ETMISS_MIN 20.00 40 ETMISS_SIG_MIN 0.0000E+00 41 L2 bit 41 EM1_EISTRKCC_E Script : 41 L2_CONFIRM_L15 With Par Set 17 41 NUM_L15_MUONS 1 41 L15_REGIONS (CF)_LOW 41 L15_CONFIRM_TYPE CAL 41 L2_EM With Par Set 3 41 NUM_EM 1 41 ETMIN_CC 20.00 41 ETMIN_EC 20.00 41 DEL_ETA_TRACK 0.3000E-01 41 DEL_PHI_TRACK 0.3000E-01 41 SHAPE_CUTS ELECTRON 41 TRACK_MATCH CDC_ONLY 41 DO_ISOLATION T 41 CONE_DELTA_R 0.4000 41 CONE_FRACT_MAX 0.1500 41 L2_EM With Par Set 4 41 NUM_EM 2 41 ETMIN_CC 16.00 41 ETMIN_EC 16.00 41 DEL_ETA_TRACK 0.3000E-01 41 DEL_PHI_TRACK 0.3000E-01 41 SHAPE_CUTS NONE 41 TRACK_MATCH IGNORE 41 DO_ISOLATION F 41 CONE_DELTA_R 0.4000 41 CONE_FRACT_MAX 0.1500 42 L2 bit 42 EM1_ESC Script : 42 L2_CONFIRM_L15 With Par Set 18 42 NUM_L15_MUONS 1 42 L15_REGIONS (CF)_LOW 42 L15_CONFIRM_TYPE CAL 42 L2_EM With Par Set 5 42 NUM_EM 1 42 ETMIN_CC 60.00 42 ETMIN_EC 60.00 42 DEL_ETA_TRACK 0.3000E-01 42 DEL_PHI_TRACK 0.3000E-01 42 SHAPE_CUTS NONE 42 TRACK_MATCH IGNORE 42 DO_ISOLATION F 42 CONE_DELTA_R 0.4000 42 CONE_FRACT_MAX 0.1500 43 L2 bit 43 EM1_GIS Script : 43 L2_PRESCALE With Par Set 8 43 L2_PRESCALE_BY 5 43 MED_PRESCALE_BY 25 43 HIGH_PRESCALE_BY 200 43 MAX_PRESCALE_BY 200 43 L2_CONFIRM_L15 With Par Set 19 43 NUM_L15_MUONS 1 43 L15_REGIONS (CF)_LOW 43 L15_CONFIRM_TYPE CAL 43 L2_EM With Par Set 6 43 NUM_EM 1 43 ETMIN_CC 25.00 43 ETMIN_EC 25.00 43 DEL_ETA_TRACK 0.3000E-01 43 DEL_PHI_TRACK 0.3000E-01 43 SHAPE_CUTS PHOTON 43 TRACK_MATCH IGNORE 43 DO_ISOLATION T 43 CONE_DELTA_R 0.4000 43 CONE_FRACT_MAX 0.1500 44 L2 bit 44 EM1_GIS_HIGH Script : 44 L2_CONFIRM_L15 With Par Set 20 44 NUM_L15_MUONS 1 44 L15_REGIONS (CF)_LOW 44 L15_CONFIRM_TYPE CAL 44 L2_EM With Par Set 7 44 NUM_EM 1 44 ETMIN_CC 40.00 44 ETMIN_EC 40.00 44 DEL_ETA_TRACK 0.3000E-01 44 DEL_PHI_TRACK 0.3000E-01 44 SHAPE_CUTS PHOTON 44 TRACK_MATCH IGNORE 44 DO_ISOLATION T 44 CONE_DELTA_R 0.4000 44 CONE_FRACT_MAX 0.1500 45 L2 bit 45 GIS_DIJET Script : 45 L2_CONFIRM_L15 With Par Set 21 45 NUM_L15_MUONS 1 45 L15_REGIONS (CF)_LOW 45 L15_CONFIRM_TYPE CAL 45 L2_EM With Par Set 8 45 NUM_EM 1 45 ETMIN_CC 15.00 45 ETMIN_EC 15.00 45 DEL_ETA_TRACK 0.3000E-01 45 DEL_PHI_TRACK 0.3000E-01 45 SHAPE_CUTS PHOTON 45 TRACK_MATCH IGNORE 45 DO_ISOLATION T 45 CONE_DELTA_R 0.4000 45 CONE_FRACT_MAX 0.1500 45 L2_ETACUT With Par Set 1 45 OBJECT PHOTON 45 NUM_FOUND 1 45 ETMIN 15.00 45 ABS_ETA_MIN 0.0000E+00 45 ABS_ETA_MAX 2.000 45 GAPCUT 0.0000E+00 45 L2JETS With Par Set 1 45 NUM_JETS 3 45 ETMIN 15.00 45 CORE_DELTA_R 0.7000 45 VETO F 45 SIZE_MIN -1.000 45 SIZE_MAX 1000. 45 EMPCT_MIN -999.0 45 EMPCT_MAX 999.0 45 L2_ETACUT With Par Set 2 45 OBJECT JET 45 NUM_FOUND 3 45 ETMIN 15.00 45 ABS_ETA_MIN 0.0000E+00 45 ABS_ETA_MAX 2.000 45 GAPCUT 0.0000E+00 45 L2_SUMJET With Par Set 1 45 ETA_LIMIT 2.000 45 SUM_ET 70.00 45 VECTOR_SUM F 46 L2 bit 46 GIS_DIJET_QCD Script : 46 L2_PRESCALE With Par Set 9 46 L2_PRESCALE_BY 1 46 MED_PRESCALE_BY 5 46 HIGH_PRESCALE_BY 10 46 MAX_PRESCALE_BY 10 46 L2_CONFIRM_L15 With Par Set 22 46 NUM_L15_MUONS 1 46 L15_REGIONS (CF)_LOW 46 L15_CONFIRM_TYPE CAL 46 L2_EM With Par Set 9 46 NUM_EM 1 46 ETMIN_CC 15.00 46 ETMIN_EC 15.00 46 DEL_ETA_TRACK 0.3000E-01 46 DEL_PHI_TRACK 0.3000E-01 46 SHAPE_CUTS PHOTON 46 TRACK_MATCH IGNORE 46 DO_ISOLATION T 46 CONE_DELTA_R 0.4000 46 CONE_FRACT_MAX 0.1500 46 L2_ETACUT With Par Set 3 46 OBJECT PHOTON 46 NUM_FOUND 1 46 ETMIN 15.00 46 ABS_ETA_MIN 0.0000E+00 46 ABS_ETA_MAX 1.000 46 GAPCUT 0.0000E+00 46 L2JETS With Par Set 2 46 NUM_JETS 3 46 ETMIN 15.00 46 CORE_DELTA_R 0.7000 46 VETO F 46 SIZE_MIN -1.000 46 SIZE_MAX 1000. 46 EMPCT_MIN -999.0 46 EMPCT_MAX 999.0 46 L2_ETACUT With Par Set 4 46 OBJECT JET 46 NUM_FOUND 3 46 ETMIN 15.00 46 ABS_ETA_MIN 0.0000E+00 46 ABS_ETA_MAX 3.000 46 GAPCUT 0.0000E+00 47 L2 bit 47 EM1_ELE_MS_MON Script : 47 L2_PRESCALE With Par Set 10 47 L2_PRESCALE_BY 1 47 MED_PRESCALE_BY 4 47 HIGH_PRESCALE_BY 10 47 MAX_PRESCALE_BY 10 47 L2_CONFIRM_L15 With Par Set 23 47 NUM_L15_MUONS 1 47 L15_REGIONS (CF)_LOW 47 L15_CONFIRM_TYPE CAL 47 L2_EM With Par Set 10 47 NUM_EM 1 47 ETMIN_CC 20.00 47 ETMIN_EC 20.00 47 DEL_ETA_TRACK 0.3000E-01 47 DEL_PHI_TRACK 0.3000E-01 47 SHAPE_CUTS ELECTRON 47 TRACK_MATCH CDC_ONLY 47 DO_ISOLATION F 47 CONE_DELTA_R 0.4000 47 CONE_FRACT_MAX 0.1500 47 L2ETMISS With Par Set 3 47 ETMISS_MIN 15.00 47 ETMISS_SIG_MIN 0.0000E+00 48 L2 bit 48 EM1_ELE_MON Script : 48 L2_PRESCALE With Par Set 11 48 L2_PRESCALE_BY 25 48 MED_PRESCALE_BY 25 48 HIGH_PRESCALE_BY 50 48 MAX_PRESCALE_BY 50 48 L2_CONFIRM_L15 With Par Set 24 48 NUM_L15_MUONS 1 48 L15_REGIONS (CF)_LOW 48 L15_CONFIRM_TYPE CAL 48 L2_EM With Par Set 11 48 NUM_EM 1 48 ETMIN_CC 20.00 48 ETMIN_EC 20.00 48 DEL_ETA_TRACK 0.3000E-01 48 DEL_PHI_TRACK 0.3000E-01 48 SHAPE_CUTS ELECTRON 48 TRACK_MATCH IGNORE 48 DO_ISOLATION F 48 CONE_DELTA_R 0.4000 48 CONE_FRACT_MAX 0.1500 L1 bit 9 EM_2_MED ======================== 9 L2 bit 9 EM2_EIS_MS Script : 9 L2_CONFIRM_L15 With Par Set 25 9 NUM_L15_MUONS 1 9 L15_REGIONS (CF)_LOW 9 L15_CONFIRM_TYPE CAL 9 L2_EM With Par Set 12 9 NUM_EM 1 9 ETMIN_CC 20.00 9 ETMIN_EC 20.00 9 DEL_ETA_TRACK 0.3000E-01 9 DEL_PHI_TRACK 0.3000E-01 9 SHAPE_CUTS ELECTRON 9 TRACK_MATCH IGNORE 9 DO_ISOLATION T 9 CONE_DELTA_R 0.4000 9 CONE_FRACT_MAX 0.1500 9 L2ETMISS With Par Set 4 9 ETMISS_MIN 20.00 9 ETMISS_SIG_MIN 0.0000E+00 49 L2 bit 49 EM2_EIS2_HI Script : 49 L2_CONFIRM_L15 With Par Set 26 49 NUM_L15_MUONS 1 49 L15_REGIONS (CF)_LOW 49 L15_CONFIRM_TYPE CAL 49 L2_EM With Par Set 13 49 NUM_EM 2 49 ETMIN_CC 20.00 49 ETMIN_EC 20.00 49 DEL_ETA_TRACK 0.3000E-01 49 DEL_PHI_TRACK 0.3000E-01 49 SHAPE_CUTS ELECTRON 49 TRACK_MATCH IGNORE 49 DO_ISOLATION T 49 CONE_DELTA_R 0.4000 49 CONE_FRACT_MAX 0.1500 50 L2 bit 50 EM2_EIS_ESC Script : 50 L2_CONFIRM_L15 With Par Set 27 50 NUM_L15_MUONS 1 50 L15_REGIONS (CF)_LOW 50 L15_CONFIRM_TYPE CAL 50 L2_EM With Par Set 14 50 NUM_EM 1 50 ETMIN_CC 20.00 50 ETMIN_EC 20.00 50 DEL_ETA_TRACK 0.3000E-01 50 DEL_PHI_TRACK 0.3000E-01 50 SHAPE_CUTS ELECTRON 50 TRACK_MATCH IGNORE 50 DO_ISOLATION T 50 CONE_DELTA_R 0.4000 50 CONE_FRACT_MAX 0.1500 50 L2_EM With Par Set 15 50 NUM_EM 2 50 ETMIN_CC 16.00 50 ETMIN_EC 16.00 50 DEL_ETA_TRACK 0.3000E-01 50 DEL_PHI_TRACK 0.3000E-01 50 SHAPE_CUTS NONE 50 TRACK_MATCH IGNORE 50 DO_ISOLATION F 50 CONE_DELTA_R 0.4000 50 CONE_FRACT_MAX 0.1500 51 L2 bit 51 EM2_EIS_ISO Script : 51 L2_CONFIRM_L15 With Par Set 28 51 NUM_L15_MUONS 1 51 L15_REGIONS (CF)_LOW 51 L15_CONFIRM_TYPE CAL 51 L2_EM With Par Set 16 51 NUM_EM 1 51 ETMIN_CC 20.00 51 ETMIN_EC 20.00 51 DEL_ETA_TRACK 0.3000E-01 51 DEL_PHI_TRACK 0.3000E-01 51 SHAPE_CUTS ELECTRON 51 TRACK_MATCH IGNORE 51 DO_ISOLATION T 51 CONE_DELTA_R 0.4000 51 CONE_FRACT_MAX 0.1500 51 L2_EM With Par Set 17 51 NUM_EM 2 51 ETMIN_CC 16.00 51 ETMIN_EC 16.00 51 DEL_ETA_TRACK 0.3000E-01 51 DEL_PHI_TRACK 0.3000E-01 51 SHAPE_CUTS NONE 51 TRACK_MATCH IGNORE 51 DO_ISOLATION T 51 CONE_DELTA_R 0.4000 51 CONE_FRACT_MAX 0.1500 52 L2 bit 52 EM2_EIS_ELE Script : 52 L2_CONFIRM_L15 With Par Set 29 52 NUM_L15_MUONS 1 52 L15_REGIONS (CF)_LOW 52 L15_CONFIRM_TYPE CAL 52 L2_EM With Par Set 18 52 NUM_EM 1 52 ETMIN_CC 20.00 52 ETMIN_EC 20.00 52 DEL_ETA_TRACK 0.3000E-01 52 DEL_PHI_TRACK 0.3000E-01 52 SHAPE_CUTS ELECTRON 52 TRACK_MATCH IGNORE 52 DO_ISOLATION T 52 CONE_DELTA_R 0.4000 52 CONE_FRACT_MAX 0.1500 52 L2_EM With Par Set 19 52 NUM_EM 2 52 ETMIN_CC 16.00 52 ETMIN_EC 16.00 52 DEL_ETA_TRACK 0.3000E-01 52 DEL_PHI_TRACK 0.3000E-01 52 SHAPE_CUTS ELECTRON 52 TRACK_MATCH IGNORE 52 DO_ISOLATION F 52 CONE_DELTA_R 0.4000 52 CONE_FRACT_MAX 0.1500 53 L2 bit 53 EM2_EIS_EIS Script : 53 L2_CONFIRM_L15 With Par Set 30 53 NUM_L15_MUONS 1 53 L15_REGIONS (CF)_LOW 53 L15_CONFIRM_TYPE CAL 53 L2_EM With Par Set 20 53 NUM_EM 1 53 ETMIN_CC 20.00 53 ETMIN_EC 20.00 53 DEL_ETA_TRACK 0.3000E-01 53 DEL_PHI_TRACK 0.3000E-01 53 SHAPE_CUTS ELECTRON 53 TRACK_MATCH IGNORE 53 DO_ISOLATION T 53 CONE_DELTA_R 0.4000 53 CONE_FRACT_MAX 0.1500 53 L2_EM With Par Set 21 53 NUM_EM 2 53 ETMIN_CC 16.00 53 ETMIN_EC 16.00 53 DEL_ETA_TRACK 0.3000E-01 53 DEL_PHI_TRACK 0.3000E-01 53 SHAPE_CUTS ELECTRON 53 TRACK_MATCH IGNORE 53 DO_ISOLATION T 53 CONE_DELTA_R 0.4000 53 CONE_FRACT_MAX 0.1500 54 L2 bit 54 EM2_EISTRKCC_E Script : 54 L2_CONFIRM_L15 With Par Set 31 54 NUM_L15_MUONS 1 54 L15_REGIONS (CF)_LOW 54 L15_CONFIRM_TYPE CAL 54 L2_EM With Par Set 22 54 NUM_EM 1 54 ETMIN_CC 20.00 54 ETMIN_EC 20.00 54 DEL_ETA_TRACK 0.3000E-01 54 DEL_PHI_TRACK 0.3000E-01 54 SHAPE_CUTS ELECTRON 54 TRACK_MATCH CDC_ONLY 54 DO_ISOLATION T 54 CONE_DELTA_R 0.4000 54 CONE_FRACT_MAX 0.1500 54 L2_EM With Par Set 23 54 NUM_EM 2 54 ETMIN_CC 16.00 54 ETMIN_EC 16.00 54 DEL_ETA_TRACK 0.3000E-01 54 DEL_PHI_TRACK 0.3000E-01 54 SHAPE_CUTS ELECTRON 54 TRACK_MATCH IGNORE 54 DO_ISOLATION T 54 CONE_DELTA_R 0.4000 54 CONE_FRACT_MAX 0.1500 55 L2 bit 55 EM2_GIS_GAM Script : 55 L2_PRESCALE With Par Set 12 55 L2_PRESCALE_BY 1 55 MED_PRESCALE_BY 3 55 HIGH_PRESCALE_BY 25 55 MAX_PRESCALE_BY 25 55 L2_CONFIRM_L15 With Par Set 32 55 NUM_L15_MUONS 1 55 L15_REGIONS (CF)_LOW 55 L15_CONFIRM_TYPE CAL 55 L2_EM With Par Set 24 55 NUM_EM 1 55 ETMIN_CC 12.00 55 ETMIN_EC 12.00 55 DEL_ETA_TRACK 0.3000E-01 55 DEL_PHI_TRACK 0.3000E-01 55 SHAPE_CUTS PHOTON 55 TRACK_MATCH IGNORE 55 DO_ISOLATION T 55 CONE_DELTA_R 0.4000 55 CONE_FRACT_MAX 0.1500 55 L2_EM With Par Set 25 55 NUM_EM 2 55 ETMIN_CC 12.00 55 ETMIN_EC 12.00 55 DEL_ETA_TRACK 0.3000E-01 55 DEL_PHI_TRACK 0.3000E-01 55 SHAPE_CUTS PHOTON 55 TRACK_MATCH IGNORE 55 DO_ISOLATION F 55 CONE_DELTA_R 0.4000 55 CONE_FRACT_MAX 0.1500 56 L2 bit 56 EM2_2EISTRK_MS Script : 56 L2_CONFIRM_L15 With Par Set 33 56 NUM_L15_MUONS 1 56 L15_REGIONS (CF)_LOW 56 L15_CONFIRM_TYPE CAL 56 L2_EM With Par Set 26 56 NUM_EM 1 56 ETMIN_CC 12.00 56 ETMIN_EC 12.00 56 DEL_ETA_TRACK 0.3000E-01 56 DEL_PHI_TRACK 0.3000E-01 56 SHAPE_CUTS ELECTRON 56 TRACK_MATCH REQUIRE 56 DO_ISOLATION T 56 CONE_DELTA_R 0.4000 56 CONE_FRACT_MAX 0.1500 56 L2_EM With Par Set 27 56 NUM_EM 2 56 ETMIN_CC 7.000 56 ETMIN_EC 7.000 56 DEL_ETA_TRACK 0.3000E-01 56 DEL_PHI_TRACK 0.3000E-01 56 SHAPE_CUTS ELECTRON 56 TRACK_MATCH REQUIRE 56 DO_ISOLATION F 56 CONE_DELTA_R 0.4000 56 CONE_FRACT_MAX 0.1500 56 L2ETMISS With Par Set 5 56 ETMISS_MIN 7.000 56 ETMISS_SIG_MIN 0.0000E+00 57 L2 bit 57 EISTRK2_MON Script : 57 L2_PRESCALE With Par Set 13 57 L2_PRESCALE_BY 40 57 MED_PRESCALE_BY 100 57 HIGH_PRESCALE_BY 250 57 MAX_PRESCALE_BY 250 57 L2_CONFIRM_L15 With Par Set 34 57 NUM_L15_MUONS 1 57 L15_REGIONS (CF)_LOW 57 L15_CONFIRM_TYPE CAL 57 L2_EM With Par Set 28 57 NUM_EM 1 57 ETMIN_CC 12.00 57 ETMIN_EC 12.00 57 DEL_ETA_TRACK 0.3000E-01 57 DEL_PHI_TRACK 0.3000E-01 57 SHAPE_CUTS ELECTRON 57 TRACK_MATCH REQUIRE 57 DO_ISOLATION T 57 CONE_DELTA_R 0.4000 57 CONE_FRACT_MAX 0.1500 57 L2_EM With Par Set 29 57 NUM_EM 2 57 ETMIN_CC 7.000 57 ETMIN_EC 7.000 57 DEL_ETA_TRACK 0.3000E-01 57 DEL_PHI_TRACK 0.3000E-01 57 SHAPE_CUTS NONE 57 TRACK_MATCH IGNORE 57 DO_ISOLATION F 57 CONE_DELTA_R 0.4000 57 CONE_FRACT_MAX 0.1500 L1 bit 10 EM_1_MON ======================== 10 L2 bit 10 ELETRK_1_MON Script : 10 L2_EM With Par Set 30 10 NUM_EM 1 10 ETMIN_CC 16.00 10 ETMIN_EC 16.00 10 DEL_ETA_TRACK 0.3000E-01 10 DEL_PHI_TRACK 0.3000E-01 10 SHAPE_CUTS ELECTRON 10 TRACK_MATCH REQUIRE 10 DO_ISOLATION F 10 CONE_DELTA_R 0.4000 10 CONE_FRACT_MAX 0.1500 58 L2 bit 58 ELE_1_MON Script : 58 L2_EM With Par Set 31 58 NUM_EM 1 58 ETMIN_CC 16.00 58 ETMIN_EC 16.00 58 DEL_ETA_TRACK 0.3000E-01 58 DEL_PHI_TRACK 0.3000E-01 58 SHAPE_CUTS ELECTRON 58 TRACK_MATCH IGNORE 58 DO_ISOLATION F 58 CONE_DELTA_R 0.4000 58 CONE_FRACT_MAX 0.1500 59 L2 bit 59 ELE_MISS_JET Script : 59 L2JETS With Par Set 3 59 NUM_JETS 1 59 ETMIN 20.00 59 CORE_DELTA_R 0.3000 59 VETO F 59 SIZE_MIN -1.000 59 SIZE_MAX 1000. 59 EMPCT_MIN -999.0 59 EMPCT_MAX 999.0 59 L2ETMISS With Par Set 6 59 ETMISS_MIN 20.00 59 ETMISS_SIG_MIN 0.0000E+00 L1 bit 11 EM_JET ======================== 11 L2 bit 11 ELE_JET_HIGH Script : 11 L2_EM With Par Set 32 11 NUM_EM 1 11 ETMIN_CC 15.00 11 ETMIN_EC 15.00 11 DEL_ETA_TRACK 0.3000E-01 11 DEL_PHI_TRACK 0.3000E-01 11 SHAPE_CUTS ELECTRON 11 TRACK_MATCH IGNORE 11 DO_ISOLATION F 11 CONE_DELTA_R 0.4000 11 CONE_FRACT_MAX 0.1500 11 L2_ETACUT With Par Set 5 11 OBJECT ELECTRON 11 NUM_FOUND 1 11 ETMIN 15.00 11 ABS_ETA_MIN 0.0000E+00 11 ABS_ETA_MAX 2.500 11 GAPCUT 0.0000E+00 11 L2JETS With Par Set 4 11 NUM_JETS 2 11 ETMIN 10.00 11 CORE_DELTA_R 0.3000 11 VETO F 11 SIZE_MIN -1.000 11 SIZE_MAX 1000. 11 EMPCT_MIN -999.0 11 EMPCT_MAX 999.0 11 L2_ETACUT With Par Set 6 11 OBJECT JET 11 NUM_FOUND 2 11 ETMIN 10.00 11 ABS_ETA_MIN 0.0000E+00 11 ABS_ETA_MAX 2.500 11 GAPCUT 0.0000E+00 11 L2ETMISS With Par Set 7 11 ETMISS_MIN 14.00 11 ETMISS_SIG_MIN 0.0000E+00 60 L2 bit 60 ELE_JET_1 Script : 60 L2_EM With Par Set 33 60 NUM_EM 1 60 ETMIN_CC 40.00 60 ETMIN_EC 40.00 60 DEL_ETA_TRACK 0.3000E-01 60 DEL_PHI_TRACK 0.3000E-01 60 SHAPE_CUTS ELECTRON 60 TRACK_MATCH REQUIRE 60 DO_ISOLATION T 60 CONE_DELTA_R 0.4000 60 CONE_FRACT_MAX 0.1500 60 L2JETS With Par Set 5 60 NUM_JETS 2 60 ETMIN 40.00 60 CORE_DELTA_R 0.7000 60 VETO F 60 SIZE_MIN -1.000 60 SIZE_MAX 1000. 60 EMPCT_MIN -999.0 60 EMPCT_MAX 999.0 61 L2 bit 61 ELE_JET_4_BKG Script : 61 L2_PRESCALE With Par Set 14 61 L2_PRESCALE_BY 10 61 MED_PRESCALE_BY 25 61 HIGH_PRESCALE_BY 100 61 MAX_PRESCALE_BY 100 61 L2JETS With Par Set 6 61 NUM_JETS 4 61 ETMIN 10.00 61 CORE_DELTA_R 0.3000 61 VETO F 61 SIZE_MIN -1.000 61 SIZE_MAX 1000. 61 EMPCT_MIN -999.0 61 EMPCT_MAX 999.0 61 L2JETS With Par Set 7 61 NUM_JETS 1 61 ETMIN 15.00 61 CORE_DELTA_R 0.3000 61 VETO F 61 SIZE_MIN -1.000 61 SIZE_MAX 1000. 61 EMPCT_MIN 80.00 61 EMPCT_MAX 999.0 61 L2_ETACUT With Par Set 7 61 OBJECT JET 61 NUM_FOUND 1 61 ETMIN 15.00 61 ABS_ETA_MIN 0.0000E+00 61 ABS_ETA_MAX 2.500 61 GAPCUT 0.0000E+00 62 L2 bit 62 ELE_JET_5_BKG Script : 62 L2_PRESCALE With Par Set 15 62 L2_PRESCALE_BY 2 62 MED_PRESCALE_BY 5 62 HIGH_PRESCALE_BY 20 62 MAX_PRESCALE_BY 20 62 L2JETS With Par Set 8 62 NUM_JETS 5 62 ETMIN 10.00 62 CORE_DELTA_R 0.3000 62 VETO F 62 SIZE_MIN -1.000 62 SIZE_MAX 1000. 62 EMPCT_MIN -999.0 62 EMPCT_MAX 999.0 62 L2JETS With Par Set 9 62 NUM_JETS 1 62 ETMIN 15.00 62 CORE_DELTA_R 0.3000 62 VETO F 62 SIZE_MIN -1.000 62 SIZE_MAX 1000. 62 EMPCT_MIN 80.00 62 EMPCT_MAX 999.0 62 L2_ETACUT With Par Set 8 62 OBJECT JET 62 NUM_FOUND 1 62 ETMIN 15.00 62 ABS_ETA_MIN 0.0000E+00 62 ABS_ETA_MAX 2.500 62 GAPCUT 0.0000E+00 63 L2 bit 63 ELE_JET_BKG Script : 63 L2_PRESCALE With Par Set 16 63 L2_PRESCALE_BY 2 63 MED_PRESCALE_BY 5 63 HIGH_PRESCALE_BY 20 63 MAX_PRESCALE_BY 20 63 L2_EM With Par Set 34 63 NUM_EM 1 63 ETMIN_CC 15.00 63 ETMIN_EC 15.00 63 DEL_ETA_TRACK 0.3000E-01 63 DEL_PHI_TRACK 0.3000E-01 63 SHAPE_CUTS ELECTRON 63 TRACK_MATCH IGNORE 63 DO_ISOLATION F 63 CONE_DELTA_R 0.4000 63 CONE_FRACT_MAX 0.1500 63 L2_ETACUT With Par Set 9 63 OBJECT ELECTRON 63 NUM_FOUND 1 63 ETMIN 15.00 63 ABS_ETA_MIN 0.0000E+00 63 ABS_ETA_MAX 2.500 63 GAPCUT 0.0000E+00 63 L2JETS With Par Set 10 63 NUM_JETS 4 63 ETMIN 10.00 63 CORE_DELTA_R 0.3000 63 VETO F 63 SIZE_MIN -1.000 63 SIZE_MAX 1000. 63 EMPCT_MIN -999.0 63 EMPCT_MAX 999.0 L1 bit 12 MU_EM_1 ======================== 12 L2 bit 12 MU_ELE Script : 12 L2_CONFIRM_L15 With Par Set 35 12 NUM_L15_MUONS 1 12 L15_REGIONS (Y3)_LOW 12 L15_CONFIRM_TYPE MUO 12 L2_EM With Par Set 35 12 NUM_EM 1 12 ETMIN_CC 7.000 12 ETMIN_EC 7.000 12 DEL_ETA_TRACK 0.3000E-01 12 DEL_PHI_TRACK 0.3000E-01 12 SHAPE_CUTS ELECTRON 12 TRACK_MATCH IGNORE 12 DO_ISOLATION F 12 CONE_DELTA_R 0.4000 12 CONE_FRACT_MAX 0.1500 12 MUON_L2 With Par Set 21 12 NUM_MUONS 1 12 PTMIN 8.000 12 ABS_ETA_MAX 9.000 12 MUON_QUALITY GOOD 12 TRACK_IN_ROAD L10_(Y2) 12 COSMIC_REJECT F 12 REFIT_T0 F 12 SCINT_ON_TRACK F 12 CAL_ON_TRACK F 12 CD_ON_TRACK F 64 L2 bit 64 MU_ELE_BEST Script : 64 L2_CONFIRM_L15 With Par Set 36 64 NUM_L15_MUONS 1 64 L15_REGIONS (Y3)_LOW 64 L15_CONFIRM_TYPE MUO 64 L2_EM With Par Set 36 64 NUM_EM 1 64 ETMIN_CC 10.00 64 ETMIN_EC 10.00 64 DEL_ETA_TRACK 0.3000E-01 64 DEL_PHI_TRACK 0.3000E-01 64 SHAPE_CUTS ELECTRON 64 TRACK_MATCH IGNORE 64 DO_ISOLATION F 64 CONE_DELTA_R 0.4000 64 CONE_FRACT_MAX 0.1500 64 MUON_L2 With Par Set 22 64 NUM_MUONS 1 64 PTMIN 8.000 64 ABS_ETA_MAX 9.000 64 MUON_QUALITY GOOD 64 TRACK_IN_ROAD L10_(Y2) 64 COSMIC_REJECT F 64 REFIT_T0 F 64 SCINT_ON_TRACK T 64 CAL_ON_TRACK T 64 CD_ON_TRACK F L1 bit 13 MU_JET_HIGH ======================== 13 L2 bit 13 MU2_JET_HIGH Script : 13 L2_CONFIRM_L15 With Par Set 37 13 NUM_L15_MUONS 1 13 L15_REGIONS (Y3)_HIGH 13 L15_CONFIRM_TYPE MUO 13 L2JETS With Par Set 11 13 NUM_JETS 1 13 ETMIN 15.00 13 CORE_DELTA_R 0.7000 13 VETO F 13 SIZE_MIN -1.000 13 SIZE_MAX 1000. 13 EMPCT_MIN -999.0 13 EMPCT_MAX 999.0 13 L2_ETACUT With Par Set 10 13 OBJECT JET 13 NUM_FOUND 1 13 ETMIN 15.00 13 ABS_ETA_MIN 0.0000E+00 13 ABS_ETA_MAX 2.500 13 GAPCUT 0.0000E+00 13 MUON_L2 With Par Set 23 13 NUM_MUONS 1 13 PTMIN 10.00 13 ABS_ETA_MAX 9.000 13 MUON_QUALITY GOOD 13 TRACK_IN_ROAD L15_(Y2)LOW 13 COSMIC_REJECT F 13 REFIT_T0 F 13 SCINT_ON_TRACK T 13 CAL_ON_TRACK F 13 CD_ON_TRACK F 13 MUON_L2 With Par Set 24 13 NUM_MUONS 2 13 PTMIN 8.000 13 ABS_ETA_MAX 9.000 13 MUON_QUALITY GOOD 13 TRACK_IN_ROAD ALL_(Y2) 13 COSMIC_REJECT F 13 REFIT_T0 F 13 SCINT_ON_TRACK T 13 CAL_ON_TRACK F 13 CD_ON_TRACK F 65 L2 bit 65 MU_JET_CAL Script : 65 L2_CONFIRM_L15 With Par Set 38 65 NUM_L15_MUONS 1 65 L15_REGIONS (Y3)_HIGH 65 L15_CONFIRM_TYPE MUO 65 L2JETS With Par Set 12 65 NUM_JETS 1 65 ETMIN 15.00 65 CORE_DELTA_R 0.7000 65 VETO F 65 SIZE_MIN -1.000 65 SIZE_MAX 1000. 65 EMPCT_MIN -999.0 65 EMPCT_MAX 999.0 65 L2_ETACUT With Par Set 11 65 OBJECT JET 65 NUM_FOUND 1 65 ETMIN 15.00 65 ABS_ETA_MIN 0.0000E+00 65 ABS_ETA_MAX 2.500 65 GAPCUT 0.0000E+00 65 MUON_L2 With Par Set 25 65 NUM_MUONS 1 65 PTMIN 10.00 65 ABS_ETA_MAX 9.000 65 MUON_QUALITY GOOD 65 TRACK_IN_ROAD L15_(Y2)LOW 65 COSMIC_REJECT F 65 REFIT_T0 F 65 SCINT_ON_TRACK T 65 CAL_ON_TRACK T 65 CD_ON_TRACK F 66 L2 bit 66 MU_JET_HIGH Script : 66 L2_PRESCALE With Par Set 17 66 L2_PRESCALE_BY 3 66 MED_PRESCALE_BY 20 66 HIGH_PRESCALE_BY 200 66 MAX_PRESCALE_BY 900 66 L2_CONFIRM_L15 With Par Set 39 66 NUM_L15_MUONS 1 66 L15_REGIONS (Y3)_HIGH 66 L15_CONFIRM_TYPE MUO 66 L2JETS With Par Set 13 66 NUM_JETS 1 66 ETMIN 15.00 66 CORE_DELTA_R 0.7000 66 VETO F 66 SIZE_MIN -1.000 66 SIZE_MAX 1000. 66 EMPCT_MIN -999.0 66 EMPCT_MAX 999.0 66 L2_ETACUT With Par Set 12 66 OBJECT JET 66 NUM_FOUND 1 66 ETMIN 15.00 66 ABS_ETA_MIN 0.0000E+00 66 ABS_ETA_MAX 2.500 66 GAPCUT 0.0000E+00 66 MUON_L2 With Par Set 26 66 NUM_MUONS 1 66 PTMIN 10.00 66 ABS_ETA_MAX 9.000 66 MUON_QUALITY GOOD 66 TRACK_IN_ROAD L15_(Y2)LOW 66 COSMIC_REJECT F 66 REFIT_T0 F 66 SCINT_ON_TRACK T 66 CAL_ON_TRACK F 66 CD_ON_TRACK F L1 bit 14 MU_JET_CENT ======================== 14 L2 bit 14 DIMU_JET_CENT Script : 14 L2JETS With Par Set 14 14 NUM_JETS 1 14 ETMIN 15.00 14 CORE_DELTA_R 0.7000 14 VETO F 14 SIZE_MIN -1.000 14 SIZE_MAX 1000. 14 EMPCT_MIN -999.0 14 EMPCT_MAX 999.0 14 L2_ETACUT With Par Set 13 14 OBJECT JET 14 NUM_FOUND 1 14 ETMIN 15.00 14 ABS_ETA_MIN 0.0000E+00 14 ABS_ETA_MAX 2.500 14 GAPCUT 0.0000E+00 14 MUON_L2 With Par Set 27 14 NUM_MUONS 1 14 PTMIN 3.000 14 ABS_ETA_MAX 9.000 14 MUON_QUALITY BEST 14 TRACK_IN_ROAD L10_(Y1) 14 COSMIC_REJECT F 14 REFIT_T0 F 14 SCINT_ON_TRACK T 14 CAL_ON_TRACK T 14 CD_ON_TRACK F 14 MUON_L2 With Par Set 28 14 NUM_MUONS 2 14 PTMIN 3.000 14 ABS_ETA_MAX 9.000 14 MUON_QUALITY GOOD 14 TRACK_IN_ROAD ALL_(Y1) 14 COSMIC_REJECT F 14 REFIT_T0 F 14 SCINT_ON_TRACK T 14 CAL_ON_TRACK T 14 CD_ON_TRACK F 67 L2 bit 67 MU_JET_CENCAL Script : 67 L2JETS With Par Set 15 67 NUM_JETS 1 67 ETMIN 15.00 67 CORE_DELTA_R 0.7000 67 VETO F 67 SIZE_MIN -1.000 67 SIZE_MAX 1000. 67 EMPCT_MIN -999.0 67 EMPCT_MAX 999.0 67 L2_ETACUT With Par Set 14 67 OBJECT JET 67 NUM_FOUND 1 67 ETMIN 15.00 67 ABS_ETA_MIN 0.0000E+00 67 ABS_ETA_MAX 2.500 67 GAPCUT 0.0000E+00 67 MUON_L2 With Par Set 29 67 NUM_MUONS 1 67 PTMIN 10.00 67 ABS_ETA_MAX 9.000 67 MUON_QUALITY GOOD 67 TRACK_IN_ROAD L10_(Y1) 67 COSMIC_REJECT F 67 REFIT_T0 F 67 SCINT_ON_TRACK T 67 CAL_ON_TRACK T 67 CD_ON_TRACK F 68 L2 bit 68 MU_JET_CENT Script : 68 L2_PRESCALE With Par Set 18 68 L2_PRESCALE_BY 1 68 MED_PRESCALE_BY 1 68 HIGH_PRESCALE_BY 2 68 MAX_PRESCALE_BY 2 68 L2JETS With Par Set 16 68 NUM_JETS 1 68 ETMIN 15.00 68 CORE_DELTA_R 0.7000 68 VETO F 68 SIZE_MIN -1.000 68 SIZE_MAX 1000. 68 EMPCT_MIN -999.0 68 EMPCT_MAX 999.0 68 L2_ETACUT With Par Set 15 68 OBJECT JET 68 NUM_FOUND 1 68 ETMIN 15.00 68 ABS_ETA_MIN 0.0000E+00 68 ABS_ETA_MAX 2.500 68 GAPCUT 0.0000E+00 68 MUON_L2 With Par Set 30 68 NUM_MUONS 1 68 PTMIN 10.00 68 ABS_ETA_MAX 9.000 68 MUON_QUALITY GOOD 68 TRACK_IN_ROAD L10_(Y1) 68 COSMIC_REJECT F 68 REFIT_T0 F 68 SCINT_ON_TRACK T 68 CAL_ON_TRACK F 68 CD_ON_TRACK F L1 bit 15 JET_MULTI ======================== 15 L2 bit 15 JET_MULTI Script : 15 L2JETS With Par Set 17 15 NUM_JETS 5 15 ETMIN 10.00 15 CORE_DELTA_R 0.3000 15 VETO F 15 SIZE_MIN -1.000 15 SIZE_MAX 1000. 15 EMPCT_MIN -999.0 15 EMPCT_MAX 999.0 15 L2_ETACUT With Par Set 16 15 OBJECT JET 15 NUM_FOUND 5 15 ETMIN 10.00 15 ABS_ETA_MIN 0.0000E+00 15 ABS_ETA_MAX 2.500 15 GAPCUT 0.0000E+00 15 L2_SUMJET With Par Set 2 15 ETA_LIMIT 2.500 15 SUM_ET 100.0 15 VECTOR_SUM F 69 L2 bit 69 JET_MULTI_X Script : 69 L2JETS With Par Set 18 69 NUM_JETS 5 69 ETMIN 15.00 69 CORE_DELTA_R 0.3000 69 VETO F 69 SIZE_MIN -1.000 69 SIZE_MAX 1000. 69 EMPCT_MIN -999.0 69 EMPCT_MAX 999.0 69 L2_ETACUT With Par Set 17 69 OBJECT JET 69 NUM_FOUND 5 69 ETMIN 15.00 69 ABS_ETA_MIN 0.0000E+00 69 ABS_ETA_MAX 2.500 69 GAPCUT 0.0000E+00 70 L2 bit 70 JET_MS_MULTI Script : 70 L2JETS With Par Set 19 70 NUM_JETS 4 70 ETMIN 12.00 70 CORE_DELTA_R 0.3000 70 VETO F 70 SIZE_MIN -1.000 70 SIZE_MAX 1000. 70 EMPCT_MIN -999.0 70 EMPCT_MAX 999.0 70 L2_ETACUT With Par Set 18 70 OBJECT JET 70 NUM_FOUND 4 70 ETMIN 12.00 70 ABS_ETA_MIN 0.0000E+00 70 ABS_ETA_MAX 2.500 70 GAPCUT 0.0000E+00 70 L2ETMISS With Par Set 8 70 ETMISS_MIN 14.00 70 ETMISS_SIG_MIN 0.0000E+00 71 L2 bit 71 SCALAR_ET_JT Script : 71 L2ETSUM With Par Set 1 71 ETSUM_MIN 375.0 71 ETOT_MAX 1800. 72 L2 bit 72 SCALAR_ET_HT Script : 72 L2_PRESCALE With Par Set 19 72 L2_PRESCALE_BY 10 72 MED_PRESCALE_BY 20 72 HIGH_PRESCALE_BY 50 72 MAX_PRESCALE_BY 50 72 L2JETS With Par Set 20 72 NUM_JETS 2 72 ETMIN 20.00 72 CORE_DELTA_R 0.3000 72 VETO F 72 SIZE_MIN -1.000 72 SIZE_MAX 1000. 72 EMPCT_MIN -999.0 72 EMPCT_MAX 999.0 72 L2_SUMJET With Par Set 3 72 ETA_LIMIT 2.500 72 SUM_ET 200.0 72 VECTOR_SUM F 73 L2 bit 73 JET_3_MISS_LOW Script : 73 L2_PRESCALE With Par Set 20 73 L2_PRESCALE_BY 1 73 MED_PRESCALE_BY 1 73 HIGH_PRESCALE_BY 5 73 MAX_PRESCALE_BY 5 73 L2JETS With Par Set 21 73 NUM_JETS 3 73 ETMIN 15.00 73 CORE_DELTA_R 0.5000 73 VETO F 73 SIZE_MIN -1.000 73 SIZE_MAX 1000. 73 EMPCT_MIN -999.0 73 EMPCT_MAX 999.0 73 L2_ETACUT With Par Set 19 73 OBJECT JET 73 NUM_FOUND 3 73 ETMIN 15.00 73 ABS_ETA_MIN 0.0000E+00 73 ABS_ETA_MAX 2.500 73 GAPCUT 0.0000E+00 73 L2ETMISS With Par Set 9 73 ETMISS_MIN 17.00 73 ETMISS_SIG_MIN 0.0000E+00 74 L2 bit 74 JET_3_L2MU Script : 74 L2_PRESCALE With Par Set 21 74 L2_PRESCALE_BY 1 74 MED_PRESCALE_BY 1 74 HIGH_PRESCALE_BY 1 74 MAX_PRESCALE_BY 5 74 L2JETS With Par Set 22 74 NUM_JETS 3 74 ETMIN 15.00 74 CORE_DELTA_R 0.5000 74 VETO F 74 SIZE_MIN -1.000 74 SIZE_MAX 1000. 74 EMPCT_MIN -999.0 74 EMPCT_MAX 999.0 74 L2_ETACUT With Par Set 20 74 OBJECT JET 74 NUM_FOUND 3 74 ETMIN 15.00 74 ABS_ETA_MIN 0.0000E+00 74 ABS_ETA_MAX 2.500 74 GAPCUT 0.0000E+00 74 L2ETMISS With Par Set 10 74 ETMISS_MIN 17.00 74 ETMISS_SIG_MIN 0.0000E+00 74 MUON_L2 With Par Set 31 74 NUM_MUONS 1 74 PTMIN 6.000 74 ABS_ETA_MAX 9.000 74 MUON_QUALITY GOOD 74 TRACK_IN_ROAD ALL_(Y2) 74 COSMIC_REJECT F 74 REFIT_T0 F 74 SCINT_ON_TRACK T 74 CAL_ON_TRACK F 74 CD_ON_TRACK F 75 L2 bit 75 JET_3_HT Script : 75 L2_PRESCALE With Par Set 22 75 L2_PRESCALE_BY 1 75 MED_PRESCALE_BY 1 75 HIGH_PRESCALE_BY 1 75 MAX_PRESCALE_BY 5 75 L2JETS With Par Set 23 75 NUM_JETS 3 75 ETMIN 15.00 75 CORE_DELTA_R 0.5000 75 VETO F 75 SIZE_MIN -1.000 75 SIZE_MAX 1000. 75 EMPCT_MIN -999.0 75 EMPCT_MAX 999.0 75 L2_ETACUT With Par Set 21 75 OBJECT JET 75 NUM_FOUND 3 75 ETMIN 15.00 75 ABS_ETA_MIN 0.0000E+00 75 ABS_ETA_MAX 2.500 75 GAPCUT 0.0000E+00 75 L2ETMISS With Par Set 11 75 ETMISS_MIN 17.00 75 ETMISS_SIG_MIN 0.0000E+00 75 L2_SUMJET With Par Set 4 75 ETA_LIMIT 2.500 75 SUM_ET 130.0 75 VECTOR_SUM F L1 bit 16 SCALAR_ET ======================== 16 L2 bit 16 SCALAR_ET Script : 16 L2ETSUM With Par Set 2 16 ETSUM_MIN 375.0 16 ETOT_MAX 1800. L1 bit 17 JET_2_MED ======================== 17 L2 bit 17 JET_4_MON Script : 17 L2JETS With Par Set 24 17 NUM_JETS 4 17 ETMIN 10.00 17 CORE_DELTA_R 0.3000 17 VETO F 17 SIZE_MIN -1.000 17 SIZE_MAX 1000. 17 EMPCT_MIN -999.0 17 EMPCT_MAX 999.0 76 L2 bit 76 JET_3_MON Script : 76 L2_PRESCALE With Par Set 23 76 L2_PRESCALE_BY 5 76 MED_PRESCALE_BY 5 76 HIGH_PRESCALE_BY 5 76 MAX_PRESCALE_BY 5 76 L2JETS With Par Set 25 76 NUM_JETS 3 76 ETMIN 10.00 76 CORE_DELTA_R 0.3000 76 VETO F 76 SIZE_MIN -1.000 76 SIZE_MAX 1000. 76 EMPCT_MIN -999.0 76 EMPCT_MAX 999.0 77 L2 bit 77 JET_4_EM Script : 77 L2JETS With Par Set 26 77 NUM_JETS 4 77 ETMIN 10.00 77 CORE_DELTA_R 0.3000 77 VETO F 77 SIZE_MIN -1.000 77 SIZE_MAX 1000. 77 EMPCT_MIN -999.0 77 EMPCT_MAX 999.0 77 L2JETS With Par Set 27 77 NUM_JETS 1 77 ETMIN 15.00 77 CORE_DELTA_R 0.3000 77 VETO F 77 SIZE_MIN -1.000 77 SIZE_MAX 1000. 77 EMPCT_MIN -999.0 77 EMPCT_MAX 999.0 77 L2_ETACUT With Par Set 22 77 OBJECT JET 77 NUM_FOUND 1 77 ETMIN 15.00 77 ABS_ETA_MIN 0.0000E+00 77 ABS_ETA_MAX 2.500 77 GAPCUT 0.0000E+00 78 L2 bit 78 JET_5_EM Script : 78 L2JETS With Par Set 28 78 NUM_JETS 5 78 ETMIN 10.00 78 CORE_DELTA_R 0.3000 78 VETO F 78 SIZE_MIN -1.000 78 SIZE_MAX 1000. 78 EMPCT_MIN -999.0 78 EMPCT_MAX 999.0 78 L2JETS With Par Set 29 78 NUM_JETS 1 78 ETMIN 15.00 78 CORE_DELTA_R 0.3000 78 VETO F 78 SIZE_MIN -1.000 78 SIZE_MAX 1000. 78 EMPCT_MIN 80.00 78 EMPCT_MAX 999.0 78 L2_ETACUT With Par Set 23 78 OBJECT JET 78 NUM_FOUND 1 78 ETMIN 15.00 78 ABS_ETA_MIN 0.0000E+00 78 ABS_ETA_MAX 2.500 78 GAPCUT 0.0000E+00 L1 bit 18 MISSING_ET ======================== 18 L2 bit 18 MISSING_ET Script : 18 L2ETMISS With Par Set 12 18 ETMISS_MIN 40.00 18 ETMISS_SIG_MIN 0.0000E+00 L1 bit 19 JET_3_MISS ======================== 19 L2 bit 19 JET_3_MISS Script : 19 L2JETS With Par Set 30 19 NUM_JETS 3 19 ETMIN 20.00 19 CORE_DELTA_R 0.5000 19 VETO F 19 SIZE_MIN -1.000 19 SIZE_MAX 1000. 19 EMPCT_MIN -999.0 19 EMPCT_MAX 999.0 19 L2ETMISS With Par Set 13 19 ETMISS_MIN 25.00 19 ETMISS_SIG_MIN 0.0000E+00 79 L2 bit 79 JET_2_MISS Script : 79 L2JETS With Par Set 31 79 NUM_JETS 1 79 ETMIN 25.00 79 CORE_DELTA_R 0.7000 79 VETO F 79 SIZE_MIN -1.000 79 SIZE_MAX 1000. 79 EMPCT_MIN -999.0 79 EMPCT_MAX 999.0 79 L2JETS With Par Set 32 79 NUM_JETS 2 79 ETMIN 10.00 79 CORE_DELTA_R 0.7000 79 VETO F 79 SIZE_MIN -1.000 79 SIZE_MAX 1000. 79 EMPCT_MIN -999.0 79 EMPCT_MAX 999.0 79 L2ETMISS With Par Set 14 79 ETMISS_MIN 25.00 79 ETMISS_SIG_MIN 0.0000E+00 79 L2_ACOL_JETS With Par Set 1 79 JET_CONE 0.7000 79 DEL_PHI_JETS 0.0000E+00 79 DEL_PHI_MET 0.0000E+00 79 DEL_PHI_MET_ISO 0.2500 L1 bit 20 JET_1_MISS ======================== 20 L2 bit 20 JET_1_TAU Script : 20 L2JETS With Par Set 33 20 NUM_JETS 1 20 ETMIN 20.00 20 CORE_DELTA_R 0.7000 20 VETO F 20 SIZE_MIN -1.000 20 SIZE_MAX 0.2500 20 EMPCT_MIN 5.000 20 EMPCT_MAX 95.00 20 L2_ETACUT With Par Set 24 20 OBJECT JET 20 NUM_FOUND 1 20 ETMIN 20.00 20 ABS_ETA_MIN 0.0000E+00 20 ABS_ETA_MAX 2.500 20 GAPCUT 0.0000E+00 20 L2ETMISS With Par Set 15 20 ETMISS_MIN 16.00 20 ETMISS_SIG_MIN 0.0000E+00 20 L2JETS With Par Set 34 20 NUM_JETS 1 20 ETMIN 15.00 20 CORE_DELTA_R 0.7000 20 VETO F 20 SIZE_MIN -1.000 20 SIZE_MAX 1000. 20 EMPCT_MIN -999.0 20 EMPCT_MAX 999.0 20 L2_ACOL_JETS With Par Set 2 20 JET_CONE 0.7000 20 DEL_PHI_JETS 0.6981 20 DEL_PHI_MET 0.0000E+00 20 DEL_PHI_MET_ISO 0.5236 80 L2 bit 80 JET_MISS_ELE Script : 80 L2_PRESCALE With Par Set 24 80 L2_PRESCALE_BY 20 80 MED_PRESCALE_BY 20 80 HIGH_PRESCALE_BY 20 80 MAX_PRESCALE_BY 20 80 L2JETS With Par Set 35 80 NUM_JETS 1 80 ETMIN 20.00 80 CORE_DELTA_R 0.3000 80 VETO F 80 SIZE_MIN -1.000 80 SIZE_MAX 1000. 80 EMPCT_MIN -999.0 80 EMPCT_MAX 999.0 80 L2ETMISS With Par Set 16 80 ETMISS_MIN 20.00 80 ETMISS_SIG_MIN 0.0000E+00 81 L2 bit 81 JET_1_MISS Script : 81 L2_PRESCALE With Par Set 25 81 L2_PRESCALE_BY 20 81 MED_PRESCALE_BY 20 81 HIGH_PRESCALE_BY 20 81 MAX_PRESCALE_BY 20 81 L2JETS With Par Set 36 81 NUM_JETS 1 81 ETMIN 20.00 81 CORE_DELTA_R 0.7000 81 VETO F 81 SIZE_MIN -1.000 81 SIZE_MAX 1000. 81 EMPCT_MIN -999.0 81 EMPCT_MAX 999.0 81 L2ETMISS With Par Set 17 81 ETMISS_MIN 20.00 81 ETMISS_SIG_MIN 0.0000E+00 L1 bit 21 JET_FAR_SUP ======================== 21 L2 bit 21 JET_FAR_SUP Script : 21 L2_PRESCALE With Par Set 26 21 L2_PRESCALE_BY 5 21 MED_PRESCALE_BY 5 21 HIGH_PRESCALE_BY 5 21 MAX_PRESCALE_BY 5 21 L2JETS With Par Set 37 21 NUM_JETS 1 21 ETMIN 40.00 21 CORE_DELTA_R 0.7000 21 VETO F 21 SIZE_MIN -1.000 21 SIZE_MAX 1000. 21 EMPCT_MIN -999.0 21 EMPCT_MAX 999.0 21 L2_ETACUT With Par Set 25 21 OBJECT JET 21 NUM_FOUND 1 21 ETMIN 40.00 21 ABS_ETA_MIN 2.400 21 ABS_ETA_MAX 10.00 21 GAPCUT 0.0000E+00 82 L2 bit 82 JET_FAR_MAX Script : 82 L2JETS With Par Set 38 82 NUM_JETS 1 82 ETMIN 50.00 82 CORE_DELTA_R 0.7000 82 VETO F 82 SIZE_MIN -1.000 82 SIZE_MAX 1000. 82 EMPCT_MIN -999.0 82 EMPCT_MAX 999.0 82 L2_ETACUT With Par Set 26 82 OBJECT JET 82 NUM_FOUND 1 82 ETMIN 50.00 82 ABS_ETA_MIN 2.400 82 ABS_ETA_MAX 10.00 82 GAPCUT 0.0000E+00 L1 bit 22 LJT_15 ======================== 22 L2 bit 22 JET_30 Script : 22 L2JETS With Par Set 39 22 NUM_JETS 1 22 ETMIN 30.00 22 CORE_DELTA_R 0.7000 22 VETO F 22 SIZE_MIN -1.000 22 SIZE_MAX 1000. 22 EMPCT_MIN -999.0 22 EMPCT_MAX 999.0 83 L2 bit 83 JET_50 Script : 83 L2JETS With Par Set 40 83 NUM_JETS 1 83 ETMIN 50.00 83 CORE_DELTA_R 0.7000 83 VETO F 83 SIZE_MIN -1.000 83 SIZE_MAX 1000. 83 EMPCT_MIN -999.0 83 EMPCT_MAX 999.0 L1 bit 23 JET_GAP_VETO ======================== 23 L2 bit 23 JET_GAP_VLO Script : 23 L2JETS With Par Set 41 23 NUM_JETS 2 23 ETMIN 18.00 23 CORE_DELTA_R 0.7000 23 VETO F 23 SIZE_MIN -1.000 23 SIZE_MAX 1000. 23 EMPCT_MIN -999.0 23 EMPCT_MAX 999.0 23 L2_ETACUT With Par Set 27 23 OBJECT JET 23 NUM_FOUND 2 23 ETMIN 18.00 23 ABS_ETA_MIN 1.600 23 ABS_ETA_MAX 10.00 23 GAPCUT 4.000 23 L2ETSUM With Par Set 3 23 ETSUM_MIN 0.0000E+00 23 ETOT_MAX 2000. 84 L2 bit 84 JET_GAP_VHI Script : 84 L2JETS With Par Set 42 84 NUM_JETS 2 84 ETMIN 25.00 84 CORE_DELTA_R 0.7000 84 VETO F 84 SIZE_MIN -1.000 84 SIZE_MAX 1000. 84 EMPCT_MIN -999.0 84 EMPCT_MAX 999.0 84 L2_ETACUT With Par Set 28 84 OBJECT JET 84 NUM_FOUND 2 84 ETMIN 25.00 84 ABS_ETA_MIN 1.600 84 ABS_ETA_MAX 10.00 84 GAPCUT 3.200 L1 bit 24 LJT_35 ======================== 24 L2 bit 24 JET_85 Script : 24 L2JETS With Par Set 43 24 NUM_JETS 1 24 ETMIN 85.00 24 CORE_DELTA_R 0.7000 24 VETO F 24 SIZE_MIN -1.000 24 SIZE_MAX 1000. 24 EMPCT_MIN -999.0 24 EMPCT_MAX 999.0 85 L2 bit 85 JET_3_MAX Script : 85 L2JETS With Par Set 44 85 NUM_JETS 1 85 ETMIN 75.00 85 CORE_DELTA_R 0.7000 85 VETO F 85 SIZE_MIN -1.000 85 SIZE_MAX 1000. 85 EMPCT_MIN -999.0 85 EMPCT_MAX 999.0 85 L2_ETACUT With Par Set 29 85 OBJECT JET 85 NUM_FOUND 1 85 ETMIN 75.00 85 ABS_ETA_MIN 0.0000E+00 85 ABS_ETA_MAX 2.500 85 GAPCUT 0.0000E+00 85 L2JETS With Par Set 45 85 NUM_JETS 3 85 ETMIN 25.00 85 CORE_DELTA_R 0.7000 85 VETO F 85 SIZE_MIN -1.000 85 SIZE_MAX 1000. 85 EMPCT_MIN -999.0 85 EMPCT_MAX 999.0 85 L2_ETACUT With Par Set 30 85 OBJECT JET 85 NUM_FOUND 3 85 ETMIN 25.00 85 ABS_ETA_MIN 0.0000E+00 85 ABS_ETA_MAX 2.500 85 GAPCUT 0.0000E+00 L1 bit 25 JET_MAX ======================== 25 L2 bit 25 JET_MAX Script : 25 L2JETS With Par Set 46 25 NUM_JETS 1 25 ETMIN 115.0 25 CORE_DELTA_R 0.7000 25 VETO F 25 SIZE_MIN -1.000 25 SIZE_MAX 1000. 25 EMPCT_MIN -999.0 25 EMPCT_MAX 999.0 L1 bit 26 JET_GAP_SD ======================== 26 L2 bit 26 JET_GAP_SD Script : 26 L2JETS With Par Set 47 26 NUM_JETS 1 26 ETMIN 15.00 26 CORE_DELTA_R 0.7000 26 VETO F 26 SIZE_MIN -1.000 26 SIZE_MAX 1000. 26 EMPCT_MIN -999.0 26 EMPCT_MAX 999.0 L1 bit 27 JET_GAP_POM ======================== 27 L2 bit 27 JET_GAP_POM Script : 27 L2JETS With Par Set 48 27 NUM_JETS 1 27 ETMIN 15.00 27 CORE_DELTA_R 0.7000 27 VETO F 27 SIZE_MIN -1.000 27 SIZE_MAX 1000. 27 EMPCT_MIN -999.0 27 EMPCT_MAX 999.0 L1 bit 28 ZERO_BIAS-V10 ======================== 28 L2 bit 28 ZERO_BIAS-V10 Script : 28 L2_PRESCALE With Par Set 27 28 L2_PRESCALE_BY 100 28 MED_PRESCALE_BY 100 28 HIGH_PRESCALE_BY 100 28 MAX_PRESCALE_BY 100 86 L2 bit 86 MIN_BIAS-V10 Script : 86 L2_PRESCALE With Par Set 28 86 L2_PRESCALE_BY 40 86 MED_PRESCALE_BY 40 86 HIGH_PRESCALE_BY 40 86 MAX_PRESCALE_BY 40 86 L2_MIN_BIAS With Par Set 1 86 ABS_Z_MAX 99.00 86 VERTEX_QUALITY FAST_Z_GOOD L1 bit 29 INSPILL ======================== 29 L2 bit 29 CAL_PULSER Script : 29 L2_PASS_FAIL With Par Set 1 29 SHOULD_PASS T 1 L2PROD Version.Pass = 7.19 FILTER_UTIL GAMMA JIM.GAMMA 15-APR-1995 14:14:19.49 LEVEL2 TEST L2PROD07.00 14-JUL-1994 22:55:13.67 VMS_FILTER TEST L2PROD07.00 26-JUN-1994 02:56:42.84 CALOR_FILTER TEST L2PROD07.00 26-JUN-1994 00:17:49.09 MUON_UTIL TEST L2PROD07.00 13-JUL-1994 15:52:57.67 CALOR_UTIL TEST L2PROD07.00 25-JUN-1994 19:08:36.51 PASCAL_UTIL TEST L2PROD07.00 25-JUN-1994 22:23:11.61 GENERAL TEST L2PROD07.00 30-JUN-1994 23:24:28.49 PHYSICS_UTIL TEST L2PROD07.00 25-JUN-1994 23:56:22.17 LEVEL0 TEST L2PROD07.00 26-JUN-1994 01:26:46.55 CD_UTIL TEST L2PROD07.00 25-JUN-1994 19:30:06.93 CDC_UTIL TEST L2PROD07.00 25-JUN-1994 19:54:18.13 FDC_UTIL TEST L2PROD07.00 25-JUN-1994 20:38:43.57 TRD_UTIL TEST L2PROD07.00 25-JUN-1994 21:09:21.03 L2PROD Version.Pass = 7.19 DUMP OF HISTORY BANK (HSTR) Bank Version : 1 Production Package ID# : 2 Version# : 7 Pass# : 19 Creation time : 4-JUN-1996 10:45:02 D0 Processing time : 5-JUN-1996 07:42:42 D0 Production Package Name : VMS_FILTER_HSTRFL Creation Site : D0MSU7 Processing Site : FNALD0 TRD Tags : 00000000 L2 run for STP building : 0 DUMP OF HISTORY BANK (HSTR) Bank Version : 1 Production Package ID# : 2 Version# : 7 Pass# : 19 Creation time : 1-FEB-1996 12:35:31 D0 Processing time : 1-FEB-1996 12:40:39 D0 Production Package Name : VMS_STP_HSTRFL Creation Site : D0GSLB Processing Site : FNALD0 TRD Tags : 00000000 L2 run for STP building : 999999 ===> Directory : //PAWC ===> Directory : //PAWC/MUSIM_L1 1002 (1) L1 MUON TRIGGER BITS - SIMULATOR 1011 (1) Sim. CF OCT. 0,1,2,3,4,5,6,7 1012 (1) Sim. PW QUAD. N:1,2,3,4 - S:1,2,3,4 1013 (1) Sim. SW QUAD. N:1,2,3,4 - S:1,2,3,4 1014 (1) Sim. SAMUS QUAD. N:1,2,3,4 - S:1,2,3,4 1015 (1) Sim. CCT OCTANTS : CF,PW,SW,SAMUS 1021 (1) Sim. CCT TRIG. MULT. FOR ETA .LT. 1.0 1022 (1) Sim. CCT TRIG. MULT. FOR ETA .LT. 1.7 1023 (1) Sim. CCT TRIG. MULT. FOR ETA .LT. 2.4 1024 (1) Sim. CCT TRIG. MULT. FOR ETA .LT. 3.4 1025 (1) Sim. CCT TRIGGERS - SN,ON,WN,CF,CF,WS,OS,SS 1026 (1) Sim. 1 CCT RATIO - SN,ON,WN,CF,CF,WS,OS,SS 1031 (1) CF TOP ROADS 1032 (1) CF BOTTOM ROADS 1033 (1) EF TOP ROADS 1034 (1) EF BOTTOM ROADS 1035 (1) SAM-WAM TOP ROADS 1036 (1) SAM-WAM BOT ROADS 1037 (1) SAMUS XXX ROADS 1038 (1) SAMUS YYY ROADS 1039 (1) SAMUS UU ROADS 1041 (1) CF TOP CCT TRIGGER OUTPUT 1042 (1) CF BOTTOM CCT TRIGGER OUTPUT 1043 (1) EW TOP CCT TRIGGER OUTPUT 1044 (1) EW BOTTOM CCT TRIGGER OUTPUT 1045 (1) SAM-WAM TOP CCT TRIGGER OUTPUT 1046 (1) SAM-WAM BOTTOM CCT TRIGGER OUTPUT 1047 (1) SAMUS CCT TRIGGER OUTPUT (XXX) 1048 (1) SAMUS CCT TRIGGER OUTPUT (YYY) 1049 (1) SAMUS CCT TRIGGER OUTPUT (UU) 1051 (1) Sim. CF CCT LATCH OUTPUT 1052 (1) Sim. WN CCT LATCH OUTPUT 1053 (1) Sim. WS CCT LATCH OUTPUT 1054 (1) Sim. ON CCT LATCH OUTPUT 1055 (1) Sim. OS CCT LATCH OUTPUT 1056 (1) Sim. SN CCT LATCH OUTPUT 1057 (1) Sim. SS CCT LATCH OUTPUT 2001 (1) L1 MUON hardware TRIGGER BITS AT FRAMEWORK 2002 (1) L1 MUON TRIGGER BITS - HARDWARE 2003 (1) L1 SPECIFIC hardware TRIGGER BITS 0-31 2011 (1) Hard. CF OCT. 0,1,2,3,4,5,6,7 2012 (1) Hard. PW QUAD. N:1,2,3,4 - S:1,2,3,4 2013 (1) Hard. SW QUAD. N:1,2,3,4 - S:1,2,3,4 2014 (1) Hard. SAMUS QUAD. N:1,2,3,4 - S:1,2,3,4 2015 (1) Hard. CCT OCTANTS : CF,PW,SW,SAMUS 2021 (1) Hard. CCT TRIG. MULT. FOR ETA .LT. 1.0 2022 (1) Hard. CCT TRIG. MULT. FOR ETA .LT. 1.7 2023 (1) Hard. CCT TRIG. MULT. FOR ETA .LT. 2.4 2024 (1) Hard. CCT TRIG. MULT. FOR ETA .LT. 3.4 2025 (1) Hard. CCT TRIGGERS - SN,ON,WN,CF,CF,WS,OS,SS 2026 (1) Hard. 1 CCT RATIO - SN,ON,WN,CF,CF,WS,OS,SS 2051 (1) Hard. CF CCT LATCH OUTPUT 2052 (1) Hard. WN CCT LATCH OUTPUT 2053 (1) Hard. WS CCT LATCH OUTPUT 2054 (1) Hard. ON CCT LATCH OUTPUT 2055 (1) Hard. OS CCT LATCH OUTPUT 2056 (1) Hard. SN CCT LATCH OUTPUT 2057 (1) Hard. SS CCT LATCH OUTPUT ===> Directory : //PAWC/MUSIM_L15 2 (1) L1.5 MUON TRIGGER BITS - SIMULATOR 4 (1) L1.5 MUON TRIGGER OCTANTS - SIMULATOR 9 (1) L1*L1.5 FOR |ETA| .LT. 1.0 10 (1) L1*L1.5 FOR |ETA| .LT. 1.7 ===> Directory : //PAWC/L2FILT 1000 (1) Overall pass/fail vs Evt # 10000 (1) Trigger bits set (counting from 0) 10001 (1) Number of L1 bits set 10002 (1) Number of L2 bits set 10003 (1) Time(ms) spent in MAIN_FILTER 10010 (1) Space beyond cushion in L2 ===> Directory : //PAWC/L1SIM 1000 (1) TRIGGER HITS 1001 (1) Weighted Trigger Hits 1005 (1) Level 1.5 Triggers Submitted to Level 1.5 1011 (1) NO OF EM TOWERS 1012 (1) NO OF HD TOWERS 1013 (1) NO OF TOT TOWERS 1021 (1) TOT EM ET (GEV) 1022 (1) TOT HD ET (GEV) 1023 (1) TOT ET (GEV) 2001 (2) EM_ET VS HD_ET