import PhysicsTools.PatAlgos.producersLayer1.muonProducer_cfi process.patMuons = PhysicsTools.PatAlgos.producersLayer1.muonProducer_cfi.patMuons.clone( muonSource = 'arbMuons', embedTrack = True, embedCombinedMuon = True, embedStandAloneMuon = True, embedPickyMuon = False, embedTpfmsMuon = False, userIsolation = cms.PSet(), # no extra isolation isoDeposits = cms.PSet(), # no isodeposits addGenMatch = False, # no mc ) from MuonAnalysis.MuonAssociators.muonL1MatchExtended_cfi import addUserData as addMuonL1MatchExtended addMuonL1MatchExtended(process.patMuons, addExtraInfo=True) process.s = cms.Sequence( process.arbMuons + process.csctfDigis + process.muonL1MatchExtended + process.patMuons ) process.p = cms.Path( process.s ) process.o = cms.OutputModule("PoolOutputModule", fileName = cms.untracked.string("patMuons_L1MatcherExtended.root"), outputCommands = cms.untracked.vstring("drop *", "keep *_patMuons__*", "keep l1extraL1MuonParticles_l1extraParticles__*")
process.load("MuonAnalysis.MuonAssociators.muonL1MatchExtended_cfi") import PhysicsTools.PatAlgos.producersLayer1.muonProducer_cfi process.patMuons = PhysicsTools.PatAlgos.producersLayer1.muonProducer_cfi.patMuons.clone( muonSource = 'muons', embedTrack = True, embedCombinedMuon = True, embedStandAloneMuon = True, embedPickyMuon = False, embedTpfmsMuon = False, userIsolation = cms.PSet(), # no extra isolation isoDeposits = cms.PSet(), # no isodeposits addGenMatch = False, # no mc ) from MuonAnalysis.MuonAssociators.muonL1MatchExtended_cfi import addUserData as addMuonL1MatchExtended addMuonL1MatchExtended(process.patMuons) ## Good Muons (very simplified selection) process.mu4j = cms.EDFilter("PATMuonRefSelector", src = cms.InputTag("patMuons"), cut = cms.string("muonID('TMLastStationAngTight')") ) ## Trigger matched process.mu4jt = process.mu4j.clone(cut = process.mu4j.cut.value() + " && userInt('muonL1MatchExtended') > 0"); ## Trigger matched, geometrically process.mu4jtg = process.mu4j.clone(cut = process.mu4j.cut.value() + " && userInt('muonL1MatchExtended') >= 10"); ## Di-muons, all process.dimu = cms.EDProducer("CandViewShallowCloneCombiner", decay = cms.string("mu4j@+ mu4j@-"), cut = cms.string("mass > 2"),
process.load("MuonAnalysis.MuonAssociators.muonL1MatchExtended_cfi") import PhysicsTools.PatAlgos.producersLayer1.muonProducer_cfi process.patMuons = PhysicsTools.PatAlgos.producersLayer1.muonProducer_cfi.patMuons.clone( muonSource='muons', embedTrack=True, embedCombinedMuon=True, embedStandAloneMuon=True, embedPickyMuon=False, embedTpfmsMuon=False, userIsolation=cms.PSet(), # no extra isolation isoDeposits=cms.PSet(), # no isodeposits addGenMatch=False, # no mc ) from MuonAnalysis.MuonAssociators.muonL1MatchExtended_cfi import addUserData as addMuonL1MatchExtended addMuonL1MatchExtended(process.patMuons) ## Good Muons (very simplified selection) process.mu4j = cms.EDFilter("PATMuonRefSelector", src=cms.InputTag("patMuons"), cut=cms.string("muonID('TMLastStationAngTight')")) ## Trigger matched process.mu4jt = process.mu4j.clone(cut=process.mu4j.cut.value() + " && userInt('muonL1MatchExtended') > 0") ## Trigger matched, geometrically process.mu4jtg = process.mu4j.clone(cut=process.mu4j.cut.value() + " && userInt('muonL1MatchExtended') >= 10") ## Di-muons, all process.dimu = cms.EDProducer( "CandViewShallowCloneCombiner",