trigs = itrigs, jecPayloads = cms.vstring( jecLevels ) ) ) process.ca8PrunedAnalyzerBTagSearch = cms.EDAnalyzer('EDJetStudies2011', jetStudies2011.clone( jetSrc = cms.InputTag('goodPatJetsCA8PrunedPF'), useCA8GenJets = cms.bool(True), useBTags = cms.bool(True), orderByMass =cms.bool(True), trigs = itrigs, jecPayloads = cms.vstring( jecLevels ), muonSrc = cms.InputTag('selectedPatMuonsLoosePFlow'), rCut = cms.double(0.8), muonInJetSelector = pfMuonSelector.clone( cutsToIgnore = cms.vstring(['PFIso', 'D0']) ) ) ) process.ca8PrunedAnalyzerBTagMuSearch = cms.EDAnalyzer('EDJetStudies2011', jetStudies2011.clone( jetSrc = cms.InputTag('goodPatJetsCA8PrunedPF'), useCA8GenJets = cms.bool(True), useBTags = cms.bool(True), orderByMass = cms.bool(True), trigs = cms.vstring([ 'HLT_Mu24_v1' ]), jecPayloads = cms.vstring( jecLevels ), muonSrc = cms.InputTag('selectedPatMuonsLoosePFlow'), rCut = cms.double(0.8),
import FWCore.ParameterSet.Config as cms from PhysicsTools.SelectorUtils.pfElectronSelector_cfi import pfElectronSelector from PhysicsTools.SelectorUtils.pfMuonSelector_cfi import pfMuonSelector shyftPFSelection = cms.PSet( electronIdPFTight = pfElectronSelector.clone( cutsToIngnore=cms.vstring() ), muonIdPFTight = pfMuonSelector.clone( cutsToIngnore=cms.vstring() ), electronIdPFLoose = pfElectronSelector.clone( cutsToIgnore = cms.vstring()#'PFIso', 'MaxMissingHits','ConversionRejection') ), muonIdPFLoose = pfMuonSelector.clone( cutsToIngnore=cms.vstring()#'PFIso','Chi2','D0','NHits','NValMuHits','nPixelHits','nMatchedStations') ), # input parameter sets muonSrc = cms.InputTag('selectedPatMuonsPFlow'), electronSrc = cms.InputTag('selectedPatElectronsPFlow'), jetSrc = cms.InputTag('goodPatJetsPFlow'), metSrc = cms.InputTag('patMETsPFlow'), trigSrc = cms.InputTag('patTriggerEvent'), trig = cms.string(''), pvSrc = cms.InputTag('goodOfflinePrimaryVertices'), # kinematic cuts minJets = cms.int32( 1 ), muPtMin = cms.double( 20.0 ), muEtaMax = cms.double( 2.1 ), eleEtMin = cms.double( 20.0 ),
muTrig = cms.string('HLT_Mu9'), eleTrig = cms.string('HLT_Ele10_LW_L1R'), pvSrc = cms.InputTag('goodOfflinePrimaryVertices'), rhoSrc = cms.InputTag('kt6PFJetsPFlow', 'rho'), useWP95Selection = cms.bool(False), useWP70Selection = cms.bool(True), usePFIso = cms.bool(True), useNoID = cms.bool(False), useVBTFDetIso = cms.bool(False), # tight muons muonIdTight = pfMuonSelector.clone( version = cms.string('SPRING11'), Chi2 = cms.double(10.0), D0 = cms.double(0.02), NHits = cms.int32(11), NValMuHits = cms.int32(0), PFIso = cms.double(0.125), nPixelHits = cms.int32(1), nMatchedStations=cms.int32(1), cutsToIgnore=cms.vstring() ), # tight electrons electronIdTight = pfElectronSelector.clone( version = cms.string('SPRING11'), MVA = cms.double(-0.01), MaxMissingHits = cms.int32(1), D0 = cms.double(0.02), electronIDused = cms.string('eidSuperTightMC'), ConversionRejection = cms.bool(False), PFIso = cms.double(0.1), cutsToIgnore = cms.vstring('MVA', 'ConversionRejection', 'MaxMissingHits')
import FWCore.ParameterSet.Config as cms from PhysicsTools.SelectorUtils.pfElectronSelector_cfi import pfElectronSelector from PhysicsTools.SelectorUtils.pfMuonSelector_cfi import pfMuonSelector shyftPFSelection = cms.PSet( electronIdPFTight=pfElectronSelector.clone(cutsToIngnore=cms.vstring()), muonIdPFTight=pfMuonSelector.clone(cutsToIngnore=cms.vstring()), electronIdPFLoose=pfElectronSelector.clone(cutsToIgnore=cms.vstring( ) #'PFIso', 'MaxMissingHits','ConversionRejection') ), muonIdPFLoose=pfMuonSelector.clone(cutsToIngnore=cms.vstring( ) #'PFIso','Chi2','D0','NHits','NValMuHits','nPixelHits','nMatchedStations') ), # input parameter sets muonSrc=cms.InputTag('selectedPatMuonsPFlow'), electronSrc=cms.InputTag('selectedPatElectronsPFlow'), jetSrc=cms.InputTag('goodPatJetsPFlow'), metSrc=cms.InputTag('patMETsPFlow'), trigSrc=cms.InputTag('patTriggerEvent'), trig=cms.string(''), pvSrc=cms.InputTag('goodOfflinePrimaryVertices'), # kinematic cuts minJets=cms.int32(1), muPtMin=cms.double(20.0), muEtaMax=cms.double(2.1), eleEtMin=cms.double(20.0), eleEtaMax=cms.double(2.4), muPtMinLoose=cms.double(10.0), muEtaMaxLoose=cms.double(2.5), eleEtMinLoose=cms.double(15.0),
import FWCore.ParameterSet.Config as cms from PhysicsTools.SelectorUtils.pfElectronSelector_cfi import pfElectronSelector from PhysicsTools.SelectorUtils.pfMuonSelector_cfi import pfMuonSelector shyftPFSelection = cms.PSet( electronIdPFTight = pfElectronSelector.clone( cutsToIgnore=cms.vstring() ), muonIdPFTight = pfMuonSelector.clone( cutsToIgnore=cms.vstring() ), electronIdPFLoose = pfElectronSelector.clone( cutsToIgnore = cms.vstring('Fiducial','MaxMissingHits','D0','ConversionRejection','MVA') ), muonIdPFLoose = pfMuonSelector.clone( cutsToIgnore=cms.vstring('Chi2','minTrackerLayers','minValidMuHits','maxIp','minPixelHits','minMatchedStations') ), # input parameter sets muonSrc = cms.InputTag('selectedPatMuonsPFlow'), electronSrc = cms.InputTag('selectedPatElectronsPFlow'), jetSrc = cms.InputTag('goodPatJetsPFlow'), metSrc = cms.InputTag('patMETsPFlow'), trigSrc = cms.InputTag('patTriggerEvent'), rhoSrc = cms.InputTag('kt6PFJets', 'rho'), trig = cms.string(''), pvSrc = cms.InputTag('goodOfflinePrimaryVertices'), # kinematic cuts minJets = cms.int32( 1 ), muPtMin = cms.double( 20.0 ), muEtaMax = cms.double( 2.1 ),