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Variables | |
| tuple | correctedHybridSuperClusters |
| tuple | uncleanedOnlyCorrectedHybridSuperClusters = correctedHybridSuperClusters.clone() |
00001 cms.EDProducer("EgammaSCCorrectionMaker", 00002 corectedSuperClusterCollection = cms.string(''), 00003 sigmaElectronicNoise = cms.double(0.03), 00004 superClusterAlgo = cms.string('Hybrid'), 00005 etThresh = cms.double(0.0), 00006 rawSuperClusterProducer = cms.InputTag("hybridSuperClusters"), 00007 applyEnergyCorrection = cms.bool(True), 00008 energyCorrectorName = cms.string("EcalClusterEnergyCorrectionObjectSpecific"), 00009 modeEB = cms.int32(0), 00010 modeEE = cms.int32(0), 00011 applyCrackCorrection = cms.bool(True), 00012 # energy correction 00013 hyb_fCorrPset = cms.PSet( 00014 00015 brLinearLowThr = cms.double(1.1), 00016 fBremVec = cms.vdouble(-0.04382, 0.1169, 0.9267, -0.0009413, 1.419), 00017 brLinearHighThr = cms.double(8.0), 00018 00019 fEtEtaVec = cms.vdouble(0, 00020 1.00121, -0.63672, 0, 0, 00021 0, 0.5655, 6.457, 0.5081, 00022 8.0, 1.023, -0.00181) 00023 ), 00024 recHitProducer = cms.InputTag("ecalRecHit","EcalRecHitsEB") 00025 )
Definition at line 4 of file correctedHybridSuperClusters_cfi.py.
Referenced by miscalibExample::analyze(), and EgammaSimpleAnalyzer::analyze().
| tuple correctedHybridSuperClusters_cfi::uncleanedOnlyCorrectedHybridSuperClusters = correctedHybridSuperClusters.clone() |
Definition at line 31 of file correctedHybridSuperClusters_cfi.py.
1.7.3