Variables
tuple	EventGeneratorPostProcessor = cms.Sequence(postProcessorBasicHepMCValidation+postProcessorBasicGenParticleValidation+postProcessorMBUEandQCDValidation+postProcessorWValidation+postProcessorDrellYanValidation+postProcessorTauValidation)
tuple	MuIsoValPostProcessor = cms.Sequence(postProcessorMuonIsolation)
tuple	postProcessorBasicGenParticleValidation
tuple	postProcessorBasicHepMCValidation
tuple	postProcessorDrellYanValidation
tuple	postProcessorMBUEandQCDValidation
tuple	postProcessorMuonIsolation
tuple	postProcessorMuonMultiTrack
tuple	postProcessorMuonMultiTrackComp
tuple	postProcessorMuonMultiTrackCompFS
tuple	postProcessorRecoMuon
tuple	postProcessorRecoMuon_Glb = postProcessorRecoMuon.clone()
tuple	postProcessorRecoMuon_GlbPF = postProcessorRecoMuon.clone()
tuple	postProcessorRecoMuon_Sta = postProcessorRecoMuon.clone()
tuple	postProcessorRecoMuon_StaPF = postProcessorRecoMuon.clone()
tuple	postProcessorRecoMuon_Trk = postProcessorRecoMuon.clone()
tuple	postProcessorRecoMuon_TrkPF = postProcessorRecoMuon.clone()
tuple	postProcessorRecoMuonComp
tuple	postProcessorRecoMuonCompPF
tuple	postProcessorTauValidation
tuple	postProcessorWValidation
tuple	recoMuonPostProcessors = cms.Sequence(postProcessorMuonMultiTrackpostProcessorRecoMuon_GlbpostProcessorRecoMuon_TrkpostProcessorRecoMuon_StapostProcessorRecoMuon_GlbPFpostProcessorRecoMuon_TrkPFpostProcessorRecoMuon_StaPFpostProcessorMuonMultiTrackComppostProcessorRecoMuonComp*postProcessorRecoMuonCompPF)
tuple	recoMuonPostProcessorsFastSim = cms.Sequence(postProcessorMuonMultiTrackpostProcessorRecoMuon_GlbpostProcessorRecoMuon_TrkpostProcessorRecoMuon_StapostProcessorRecoMuon_GlbPFpostProcessorRecoMuon_TrkPFpostProcessorRecoMuon_StaPFpostProcessorMuonMultiTrackCompFSpostProcessorRecoMuonComp*postProcessorRecoMuonCompPF)

Variable Documentation

tuple PostProcessor_cff::EventGeneratorPostProcessor = cms.Sequence(postProcessorBasicHepMCValidation+postProcessorBasicGenParticleValidation+postProcessorMBUEandQCDValidation+postProcessorWValidation+postProcessorDrellYanValidation+postProcessorTauValidation)

Definition at line 292 of file PostProcessor_cff.py.

tuple PostProcessor_cff::MuIsoValPostProcessor = cms.Sequence(postProcessorMuonIsolation)

Definition at line 56 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorBasicGenParticleValidation

Initial value:

00001 cms.EDAnalyzer(
00002     "DQMGenericClient",
00003     subDirs = cms.untracked.vstring("Generator/GenParticles*"),
00004     efficiency = cms.vstring(""),
00005     resolution = cms.vstring(""),
00006     normalization = cms.untracked.vstring("genPMultiplicity nEvt",   
00007                                           "genMatched nEvt",         
00008                                           "multipleMatching nEvt",   
00009                                           "matchedResolution nEvt",  
00010                                           "genJetMult nEvt",         
00011                                           "genJetEnergy nEvt",       
00012                                           "genJetPt nEvt",           
00013                                           "genJetEta nEvt",          
00014                                           "genJetPhi nEvt",          
00015                                           "genJetDeltaEtaMin nEvt",  
00016                                           "genJetPto1 nEvt",         
00017                                           "genJetPto10 nEvt",        
00018                                           "genJetPto100 nEvt",       
00019                                           "genJetCentral nEvt",      
00020                                           "genJetTotPt nEvt")        
00021 )

Definition at line 126 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorBasicHepMCValidation

Definition at line 3 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorDrellYanValidation

Initial value:

00001 cms.EDAnalyzer(
00002     "DQMGenericClient",
00003     subDirs = cms.untracked.vstring("Generator/DrellYan*"),
00004     efficiency = cms.vstring(""),
00005     resolution = cms.vstring(""),
00006     normalization = cms.untracked.vstring("Zmass nEvt",   
00007                                           "ZmassPeak nEvt",         
00008                                           "Zpt nEvt",         
00009                                           "ZptLog nEvt",       
00010                                           "Zrap nEvt",           
00011                                           "Zdaughters nEvt",          
00012                                           "dilep_mass nEvt",  
00013                                           "dilep_massPeak nEvt",         
00014                                           "dilep_pt nEvt",        
00015                                           "dilep_ptLog nEvt",
00016                                           "dilep_rap nEvt",
00017                                           "gamma_energy nEvt",        
00018                                           "cos_theta_gamma_lepton nEvt",
00019                                           "leadpt nEvt",
00020                                           "secpt nEvt",
00021                                           "leadeta nEvt",
00022                                           "seceta nEvt")
00023 )

Definition at line 254 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorMBUEandQCDValidation

Definition at line 148 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorMuonIsolation

Definition at line 3 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorMuonMultiTrack

Definition at line 3 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorMuonMultiTrackComp

Initial value:

00001 cms.EDAnalyzer("DQMGenericClient",
00002     subDirs = cms.untracked.vstring("Muons/RecoMuonV/MultiTrack/"),
00003     efficiency = cms.vstring(
00004     "Eff_GlbTk_Eta_mabh 'Eff_{GLB,TK} vs #eta' extractedGlobalMuons_tpToGlbMuonAssociation/effic general_tpToTkmuAssociation/effic",
00005     "Eff_GlbTk_Pt_mabh 'Eff_{GLB,TK} vs p_{T}' extractedGlobalMuons_tpToGlbMuonAssociation/efficPt general_tpToTkmuAssociation/efficPt",
00006     "Eff_GlbTk_Hit_mabh 'Eff_{GLB,TK} vs n Hits' extractedGlobalMuons_tpToGlbMuonAssociation/effic_vs_hit general_tpToTkmuAssociation/effic_vs_hit",
00007     "Eff_GlbSta_Eta_mabh 'Eff_{GLB,STA} vs #eta' extractedGlobalMuons_tpToGlbMuonAssociation/effic standAloneMuons_UpdatedAtVtx_tpToStaUpdMuonAssociation/effic",
00008     "Eff_GlbSta_Pt_mabh 'Eff_{GLB,STA} vs p_{T}' extractedGlobalMuons_tpToGlbMuonAssociation/efficPt standAloneMuons_UpdatedAtVtx_tpToStaUpdMuonAssociation/efficPt",
00009     "Eff_GlbSta_Hit_mabh 'Eff_{GLB,STA} vs n Hits' extractedGlobalMuons_tpToGlbMuonAssociation/effic_vs_hit standAloneMuons_UpdatedAtVtx_tpToStaUpdMuonAssociation/effic_vs_hit",
00010     ),
00011     resolution = cms.vstring(""),
00012     outputFileName = cms.untracked.string("")
00013 )

Definition at line 51 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorMuonMultiTrackCompFS

Initial value:

00001 cms.EDAnalyzer("DQMGenericClient",
00002     subDirs = cms.untracked.vstring("Muons/RecoMuonV/MultiTrack/"),
00003     efficiency = cms.vstring(
00004     "Eff_GlbTk_Eta_mabh 'Eff_{GLB,TK} vs #eta' extractedGlobalMuons_tpToGlbMuonAssociationFS/effic general_tpToTkmuAssociationFS/effic",
00005     "Eff_GlbTk_Pt_mabh 'Eff_{GLB,TK} vs p_{T}' extractedGlobalMuons_tpToGlbMuonAssociationFS/efficPt general_tpToTkmuAssociationFS/efficPt",
00006     "Eff_GlbTk_Hit_mabh 'Eff_{GLB,TK} vs n Hits' extractedGlobalMuons_tpToGlbMuonAssociationFS/effic_vs_hit general_tpToTkmuAssociationFS/effic_vs_hit",
00007     "Eff_GlbSta_Eta_mabh 'Eff_{GLB,STA} vs #eta' extractedGlobalMuons_tpToGlbMuonAssociationFS/effic standAloneMuons_UpdatedAtVtx_tpToStaUpdMuonAssociationFS/effic",
00008     "Eff_GlbSta_Pt_mabh 'Eff_{GLB,STA} vs p_{T}' extractedGlobalMuons_tpToGlbMuonAssociationFS/efficPt standAloneMuons_UpdatedAtVtx_tpToStaUpdMuonAssociationFS/efficPt",
00009     "Eff_GlbSta_Hit_mabh 'Eff_{GLB,STA} vs n Hits' extractedGlobalMuons_tpToGlbMuonAssociationFS/effic_vs_hit standAloneMuons_UpdatedAtVtx_tpToStaUpdMuonAssociationFS/effic_vs_hit",
00010     ),
00011     resolution = cms.vstring(""),
00012     outputFileName = cms.untracked.string("")
00013 )

Definition at line 65 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorRecoMuon

Definition at line 80 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorRecoMuon_Glb = postProcessorRecoMuon.clone()

Definition at line 113 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorRecoMuon_GlbPF = postProcessorRecoMuon.clone()

Definition at line 122 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorRecoMuon_Sta = postProcessorRecoMuon.clone()

Definition at line 119 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorRecoMuon_StaPF = postProcessorRecoMuon.clone()

Definition at line 128 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorRecoMuon_Trk = postProcessorRecoMuon.clone()

Definition at line 116 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorRecoMuon_TrkPF = postProcessorRecoMuon.clone()

Definition at line 125 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorRecoMuonComp

Initial value:

00001 cms.EDAnalyzer(
00002     "DQMGenericClient",
00003     subDirs = cms.untracked.vstring("Muons/RecoMuonV/"),
00004     efficiency = cms.vstring(
00005     "Eff_GlbSta_Eta 'Eff_{GLB,TK} vs #eta' RecoMuon_MuonAssoc_Glb/EffEta RecoMuon_MuonAssoc_Sta/EffEta",
00006     "Eff_GlbSta_P 'Eff_{GLB,TK} vs p' RecoMuon_MuonAssoc_Glb/EffP RecoMuon_MuonAssoc_Sta/EffP",
00007     "Eff_GlbSta_Phi 'Eff_{GLB,TK} vs #phi' RecoMuon_MuonAssoc_Glb/EffPhi RecoMuon_MuonAssoc_Sta/EffPhi",
00008     "Eff_GlbSta_Pt 'Eff_{GLB,TK} vs p_{T}' RecoMuon_MuonAssoc_Glb/EffPt RecoMuon_MuonAssoc_Sta/EffPt",
00009     ),
00010     resolution = cms.vstring(""),
00011     outputFileName = cms.untracked.string("")
00012 )

Definition at line 133 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorRecoMuonCompPF

Initial value:

00001 cms.EDAnalyzer(
00002     "DQMGenericClient",
00003     subDirs = cms.untracked.vstring("Muons/RecoMuonV/"),
00004     efficiency = cms.vstring(
00005     "Eff_GlbSta_EtaPF 'Eff_{GLB,TK} vs #eta' RecoMuon_MuonAssoc_GlbPF/EffEta RecoMuon_MuonAssoc_StaPF/EffEta",
00006     "Eff_GlbSta_PPF 'Eff_{GLB,TK} vs p' RecoMuon_MuonAssoc_GlbPF/EffP RecoMuon_MuonAssoc_StaPF/EffP",
00007     "Eff_GlbSta_PhiPF 'Eff_{GLB,TK} vs #phi' RecoMuon_MuonAssoc_GlbPF/EffPhi RecoMuon_MuonAssoc_StaPF/EffPhi",
00008     "Eff_GlbSta_PtPF 'Eff_{GLB,TK} vs p_{T}' RecoMuon_MuonAssoc_GlbPF/EffPt RecoMuon_MuonAssoc_StaPF/EffPt",
00009     ),
00010     resolution = cms.vstring(""),
00011     outputFileName = cms.untracked.string("")
00012 )

Definition at line 146 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorTauValidation

Initial value:

00001 cms.EDAnalyzer(
00002     "DQMGenericClient",
00003     subDirs = cms.untracked.vstring("Generator/Tau*"),
00004     efficiency = cms.vstring(""),
00005     resolution = cms.vstring(""),
00006     normalization = cms.untracked.vstring("TauProngs nEvt",        
00007                                           "TauDecayChannels nEvt", 
00008                                           "TauMothers nEvt",       
00009                                           "TauRtauW nEvt",         
00010                                           "TauRtauHpm nEvt",       
00011                                           "TauSpinEffectsW nEvt",  
00012                                           "TauSpinEffectsHpm nEvt")
00013 )

Definition at line 278 of file PostProcessor_cff.py.

tuple PostProcessor_cff::postProcessorWValidation

Initial value:

00001 cms.EDAnalyzer(
00002     "DQMGenericClient",
00003     subDirs = cms.untracked.vstring("Generator/W*"),
00004     efficiency = cms.vstring(""),
00005     resolution = cms.vstring(""),
00006     normalization = cms.untracked.vstring("Wmass nEvt",   
00007                                           "WmassPeak nEvt",         
00008                                           "Wpt nEvt",         
00009                                           "WptLog nEvt",       
00010                                           "Wrap nEvt",           
00011                                           "Wdaughters nEvt",          
00012                                           "lepmet_mT nEvt",  
00013                                           "lepmet_mTPeak nEvt",         
00014                                           "lepmet_pt nEvt",        
00015                                           "lepmet_ptLog nEvt",       
00016                                           "gamma_energy nEvt",        
00017                                           "cos_theta_gamma_lepton nEvt",
00018                                           "leppt nEvt",
00019                                           "met nEvt",
00020                                           "lepeta nEvt")
00021 )

Definition at line 232 of file PostProcessor_cff.py.

tuple PostProcessor_cff::recoMuonPostProcessors = cms.Sequence(postProcessorMuonMultiTrack*postProcessorRecoMuon_Glb*postProcessorRecoMuon_Trk*postProcessorRecoMuon_Sta*postProcessorRecoMuon_GlbPF*postProcessorRecoMuon_TrkPF*postProcessorRecoMuon_StaPF*postProcessorMuonMultiTrackComp*postProcessorRecoMuonComp*postProcessorRecoMuonCompPF)

Definition at line 160 of file PostProcessor_cff.py.

tuple PostProcessor_cff::recoMuonPostProcessorsFastSim = cms.Sequence(postProcessorMuonMultiTrack*postProcessorRecoMuon_Glb*postProcessorRecoMuon_Trk*postProcessorRecoMuon_Sta*postProcessorRecoMuon_GlbPF*postProcessorRecoMuon_TrkPF*postProcessorRecoMuon_StaPF*postProcessorMuonMultiTrackCompFS*postProcessorRecoMuonComp*postProcessorRecoMuonCompPF)

Definition at line 162 of file PostProcessor_cff.py.

PostProcessor_cff Namespace Reference

Variables

Variable Documentation