Variables | |
tuple | hcalSimBlock |
tuple | simHcalUnsuppressedDigis |
00001 cms.PSet( 00002 hcalSimParameters, 00003 # whether cells with MC signal get noise added 00004 doNoise = cms.bool(True), 00005 # whether cells with no MC signal get an empty signal created 00006 # These empty signals can get noise via the doNoise flag 00007 doEmpty = cms.bool(True), 00008 doHPDNoise = cms.bool(False), 00009 doIonFeedback = cms.bool(True), 00010 doThermalNoise = cms.bool(True), 00011 HBTuningParameter = cms.double(0.875), 00012 HETuningParameter = cms.double(0.9), 00013 HFTuningParameter = cms.double(1.025), 00014 HOTuningParameter = cms.double(1), 00015 useOldHB = cms.bool(True), 00016 useOldHE = cms.bool(True), 00017 useOldHF = cms.bool(True), 00018 useOldHO = cms.bool(True), 00019 #HPDNoiseLibrary = cms.PSet( 00020 # FileName = cms.FileInPath("SimCalorimetry/HcalSimAlgos/data/hpdNoiseLibrary.root"), 00021 # HPDName = cms.untracked.string("HPD") 00022 #), 00023 doTimeSlew = cms.bool(True), 00024 doHFWindow = cms.bool(True), 00025 hitsProducer = cms.string('g4SimHits'), 00026 injectTestHits = cms.bool(False) 00027 )
Definition at line 8 of file hcalUnsuppressedDigis_cfi.py.
00001 cms.EDProducer("HcalDigiProducer", 00002 hcalSimBlock 00003 )
Definition at line 60 of file hcalUnsuppressedDigis_cfi.py.