process.lambdacAna_mc = particleAna_mc.clone( recoParticles=cms.InputTag("LambdaC"), genParticles=cms.untracked.InputTag("genParticles"), selectEvents=cms.string("eventFilterStep"), addSource=cms.untracked.bool(False), genPdgId=cms.untracked.vuint32([4122, 310, 2212, 211]), nTracksVMap=cms.untracked.InputTag(""), maxGenDeltarR=cms.untracked.double(0.1), saveTree=cms.untracked.bool(True), # trigger information triggerResults=cms.untracked.InputTag("TriggerResults::HLT"), triggerEvent=cms.untracked.InputTag("hltTriggerSummaryAOD::HLT"), triggerInfo=cms.untracked.VPSet([]), #Filter info eventFilterResults=cms.untracked.InputTag("TriggerResults"), eventFilterNames=cms.untracked.vstring('Flag_colEvtSel', 'Flag_hfCoincFilter', 'Flag_primaryVertexFilterPA', 'Flag_NoScraping', 'Flag_pileupVertexFilterCut', 'Flag_pileupVertexFilterCutGplus'), # centrality and event plane information centralityBin=cms.untracked.InputTag("", ""), centrality=cms.untracked.InputTag(""), eventPlane=cms.untracked.InputTag("", ""), # luminosity information lumiInfo=cms.untracked.InputTag(""), lumiScalers=cms.untracked.InputTag(""), )
finalSelection=cms.string("abs(userFloat('dxySig'))>5" "&& abs(userFloat('dzSig'))>5")), ]), ) # Define the analysis steps process.rereco_step = cms.Path(process.eventFilter * process.Lambda * process.Xi) # Add the VertexComposite tree from VertexCompositeAnalysis.VertexCompositeAnalyzer.particle_tree_cff import particleAna_mc process.LambdaAna_mc = particleAna_mc.clone( recoParticles=cms.InputTag("Lambda"), genParticles=cms.untracked.InputTag("genParticles"), selectEvents=cms.string("eventFilterStep"), addSource=cms.untracked.bool(False), genPdgId=cms.untracked.vuint32([3122]), nTracksVMap=cms.untracked.InputTag(""), saveTree=cms.untracked.bool(True), ) process.XiAna_mc = particleAna_mc.clone( recoParticles=cms.InputTag("Xi"), genParticles=cms.untracked.InputTag("genParticles"), selectEvents=cms.string("eventFilterStep"), addSource=cms.untracked.bool(False), genPdgId=cms.untracked.vuint32([3312]), nTracksVMap=cms.untracked.InputTag(""), saveTree=cms.untracked.bool(True), ) # Define the output
"abs(userFloat('dzSig')) < 3 && abs(userFloat('dxySig')) < 3") ), ]), ) # Define the analysis steps process.rereco_step = cms.Path(process.eventFilter * process.kShort * process.LambdaC) # Add the VertexComposite tree from VertexCompositeAnalysis.VertexCompositeAnalyzer.particle_tree_cff import particleAna_mc process.lambdacAna_mc = particleAna_mc.clone( recoParticles=cms.InputTag("LambdaC"), genParticles=cms.untracked.InputTag("genParticles"), selectEvents=cms.string("eventFilterStep"), addSource=cms.untracked.bool(False), genPdgId=cms.untracked.vuint32([4122, 310, 2212, 211]), nTracksVMap=cms.untracked.InputTag(""), saveTree=cms.untracked.bool(False)) # Define the output process.TFileService = cms.Service("TFileService", fileName=cms.string('lambdacana_mc.root')) process.p = cms.EndPath(process.lambdacAna_mc) # Define the process schedule process.schedule = cms.Schedule(process.rereco_step, process.p) # Add the event selection filters, will be used by tree producer process.Flag_colEvtSel = cms.Path(process.colEvtSel) process.Flag_hfCoincFilter = cms.Path(process.hfCoincFilter)
"&& normalizedChi2<7.0" "&& numberOfValidHits >=3"), finalSelection=cms.string("abs(userFloat('dxySig'))>1" "&& abs(userFloat('dzSig'))>1")), ]), ) # Define the analysis steps process.rereco_step = cms.Path(process.eventFilter * process.kShort) # Add the VertexComposite tree from VertexCompositeAnalysis.VertexCompositeAnalyzer.particle_tree_cff import particleAna_mc process.ksAna_mc = particleAna_mc.clone( recoParticles=cms.InputTag("kShort"), genParticles=cms.untracked.InputTag("genParticles"), selectEvents=cms.string("eventFilterStep"), addSource=cms.untracked.bool(False), genPdgId=cms.untracked.vuint32([310, 211]), nTracksVMap=cms.untracked.InputTag(""), saveTree=cms.untracked.bool(True), ) # Define the output process.TFileService = cms.Service("TFileService", fileName=cms.string('ksana_mc.root')) process.pKs = cms.EndPath(process.ksAna_mc) # Define the process schedule process.schedule = cms.Schedule( process.eventFilterStep, process.rereco_step, process.pKs,