Definition at line 506 of file PostProcessor_cff.py.
tuple PostProcessor_cff::MuIsoValPostProcessor = cms.Sequence(postProcessorMuonIsolation) |
Definition at line 74 of file PostProcessor_cff.py.
CMS_2010_S8547297.
Definition at line 25 of file PostProcessor_cff.py.
CMS_2010_S8656010.
Definition at line 106 of file PostProcessor_cff.py.
CMS_2011_S8884919.
Definition at line 187 of file PostProcessor_cff.py.
00001 cms.EDAnalyzer("DQMRivetClient", 00002 subDirs = cms.untracked.vstring("Rivet/CMS_2011_S8941262"), 00003 xsection = cms.untracked.double(1000), 00004 normalizeToLumi = cms.untracked.vstring( 00005 "d01-x01-y01", 00006 "d02-x01-y01", 00007 "d03-x01-y01" 00008 ), 00009 scaleBy = cms.untracked.vstring( 00010 "d01-x01-y01 0.000001", #norm from picobarn to microbarn 00011 "d02-x01-y01 0.001", #norm from picobarn to nanobarn 00012 "d03-x01-y01 0.001" #norm from picobarn to nanobarn 00013 ) 00014 )
CMS_2011_S8941262.
Definition at line 225 of file PostProcessor_cff.py.
00001 cms.EDAnalyzer( 00002 "DQMRivetClient", 00003 subDirs = cms.untracked.vstring("Rivet/CMS_2011_S8950903"), 00004 normalizeToIntegral = cms.untracked.vstring( 00005 "d01-x01-y01" 00006 ) 00007 )
CMS_2011_S8950903.
Definition at line 243 of file PostProcessor_cff.py.
00001 cms.EDAnalyzer( 00002 "DQMRivetClient", 00003 subDirs = cms.untracked.vstring("Rivet/CMS_2011_S8957746"), 00004 normalizeToIntegral = cms.untracked.vstring( 00005 "d01-x01-y01", 00006 "d01-x02-y01", 00007 "d01-x03-y01", 00008 "d02-x01-y01", 00009 "d02-x02-y01", 00010 "d02-x03-y01" 00011 ) 00012 )
CMS_2011_S8957746.
Definition at line 254 of file PostProcessor_cff.py.
00001 cms.EDAnalyzer( 00002 "DQMRivetClient", 00003 subDirs = cms.untracked.vstring("Rivet/CMS_2011_S8968497"), 00004 efficiency = cms.vstring(""), 00005 resolution = cms.vstring(""), 00006 normalizationToIntegral = cms.untracked.vstring("d01-x01-y01", 00007 "d02-x01-y01", 00008 "d03-x01-y01", 00009 "d04-x01-y01", 00010 "d05-x01-y01", 00011 "d06-x01-y01", 00012 "d07-x01-y01", 00013 "d08-x01-y01", 00014 "d09-x01-y01") 00015 )
CMS_2011_S8968497.
Definition at line 6 of file PostProcessor_cff.py.
00001 cms.EDAnalyzer( 00002 "DQMRivetClient", 00003 subDirs = cms.untracked.vstring("Rivet/CMS_2011_S9086218"), 00004 xsection = cms.untracked.double(1000), 00005 normalizeToLumi = cms.untracked.vstring( 00006 "d01-x01-y01 nEvt" 00007 ), 00008 scaleBy = cms.untracked.vstring( 00009 "d01-x01-y01 0.5" 00010 ) 00011 )
CMS_2011_S9086218.
Definition at line 281 of file PostProcessor_cff.py.
00001 cms.EDAnalyzer( 00002 "DQMGenericClient", 00003 subDirs = cms.untracked.vstring("Rivet/CMS_2011_S9088458"), 00004 efficiencyProfile = cms.untracked.vstring("d01-x01-y01 d01-x01-y01 trijet dijet"), 00005 resolution = cms.vstring(""), 00006 efficiency = cms.vstring("") 00007 )
CMS_2011_S9088458.
Definition at line 296 of file PostProcessor_cff.py.
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 130 of file PostProcessor_cff.py.
Definition at line 3 of file PostProcessor_cff.py.
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 261 of file PostProcessor_cff.py.
Definition at line 427 of file PostProcessor_cff.py.
Definition at line 466 of file PostProcessor_cff.py.
Definition at line 152 of file PostProcessor_cff.py.
Definition at line 3 of file PostProcessor_cff.py.
Definition at line 3 of file PostProcessor_cff.py.
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.
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.
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 125 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 131 of file PostProcessor_cff.py.
tuple PostProcessor_cff::postProcessorRecoMuon_Tgt = postProcessorRecoMuon.clone() |
Definition at line 122 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 128 of file PostProcessor_cff.py.
00001 cms.EDAnalyzer( 00002 "DQMGenericClient", 00003 subDirs = cms.untracked.vstring("Muons/RecoMuonV/"), 00004 efficiency = cms.vstring( 00005 "Eff_GlbSta_Eta 'Eff_{GLB,STA} vs #eta' RecoMuon_MuonAssoc_Glb/EffEta RecoMuon_MuonAssoc_Sta/EffEta", 00006 "Eff_GlbSta_P 'Eff_{GLB,STA} vs p' RecoMuon_MuonAssoc_Glb/EffP RecoMuon_MuonAssoc_Sta/EffP", 00007 "Eff_GlbSta_Phi 'Eff_{GLB,STA} vs #phi' RecoMuon_MuonAssoc_Glb/EffPhi RecoMuon_MuonAssoc_Sta/EffPhi", 00008 "Eff_GlbSta_Pt 'Eff_{GLB,STA} vs p_{T}' RecoMuon_MuonAssoc_Glb/EffPt RecoMuon_MuonAssoc_Sta/EffPt", 00009 "Eff_TgtGlb_Eta 'Eff_{TGT,GLB} vs #eta' RecoMuon_MuonAssoc_Tgt/EffEta RecoMuon_MuonAssoc_Glb/EffEta", 00010 "Eff_TgtGlb_P 'Eff_{TGT,GLB} vs p' RecoMuon_MuonAssoc_Tgt/EffP RecoMuon_MuonAssoc_Glb/EffP", 00011 "Eff_TgtGlb_Phi 'Eff_{TGT,GLB} vs #phi' RecoMuon_MuonAssoc_Tgt/EffPhi RecoMuon_MuonAssoc_Glb/EffPhi", 00012 "Eff_TgtGlb_Pt 'Eff_{TGT,GLB} vs p_{T}' RecoMuon_MuonAssoc_Tgt/EffPt RecoMuon_MuonAssoc_Glb/EffPt", 00013 ), 00014 resolution = cms.vstring(""), 00015 outputFileName = cms.untracked.string("") 00016 )
Definition at line 135 of file PostProcessor_cff.py.
00001 cms.EDAnalyzer( 00002 "DQMGenericClient", 00003 subDirs = cms.untracked.vstring("Muons/RecoMuonV/"), 00004 efficiency = cms.vstring( 00005 "Eff_GlbPFStaPF_Eta 'Eff_{GLBPF,STAPF} vs #eta' RecoMuon_MuonAssoc_GlbPF/EffEta RecoMuon_MuonAssoc_StaPF/EffEta", 00006 "Eff_GlbPFStaPF_P 'Eff_{GLBPF,STAPF} vs p' RecoMuon_MuonAssoc_GlbPF/EffP RecoMuon_MuonAssoc_StaPF/EffP", 00007 "Eff_GlbPFStaPF_Phi 'Eff_{GLBPF,STAPF} vs #phi' RecoMuon_MuonAssoc_GlbPF/EffPhi RecoMuon_MuonAssoc_StaPF/EffPhi", 00008 "Eff_GlbPFStaPF_Pt 'Eff_{GLBPF,STAPF} 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 152 of file PostProcessor_cff.py.
Definition at line 285 of file PostProcessor_cff.py.
00001 cms.EDAnalyzer("DQMGenericClient", 00002 subDirs = cms.untracked.vstring("Generator/TTbarSpinCorr*"), 00003 efficiency = cms.vstring(""), 00004 resolution = cms.vstring(""), 00005 normalization = cms.untracked.vstring("TTbar_asym nEvt", 00006 "TTbar_deltaPhi nEvt", 00007 "TTbar_llpairM nEvt", 00008 "TTbar_llpairPt nEvt" 00009 ) 00010 )
Definition at line 415 of file PostProcessor_cff.py.
Definition at line 362 of file PostProcessor_cff.py.
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 "leadpt nEvt", 00022 "leadeta nEvt") 00023 )
Definition at line 237 of file PostProcessor_cff.py.
Definition at line 166 of file PostProcessor_cff.py.
Definition at line 168 of file PostProcessor_cff.py.
00001 cms.Sequence( postCMS_2011_S8968497 + 00002 postCMS_2010_S8547297 + 00003 postCMS_2010_S8656010 + 00004 postCMS_2011_S8884919 + 00005 postCMS_2011_S8941262 + 00006 postCMS_2011_S8950903 + 00007 postCMS_2011_S8957746 + 00008 postCMS_2011_S8968497 + 00009 postCMS_2011_S9086218 + 00010 postCMS_2011_S9088458 )
SEQUENCES.
Definition at line 305 of file PostProcessor_cff.py.