Variables | |
tuple | hltMuonEfficiencies |
tuple | hltMuonPostVal |
tuple | zClient |
tuple | ZPars |
00001 cms.EDAnalyzer("DQMGenericClient", 00002 00003 subDirs = cms.untracked.vstring("HLT/Muon/Distributions.*"), 00004 verbose = cms.untracked.uint32(0), # Set to 2 for all messages 00005 outputFileName = cms.untracked.string(''), 00006 commands = cms.vstring(), 00007 resolution = cms.vstring(), 00008 efficiency = cms.vstring( 00009 "efficiencyPhiVsEta 'Efficiency to Match Reco Muons to Trigger Objects; #eta^{reco}; #phi^{reco}' efficiencyPhiVsEta_numer efficiencyPhiVsEta_denom", 00010 ), 00011 00012 efficiencyProfile = cms.untracked.vstring( 00013 "efficiencyEta 'Efficiency to Match Reco Muons to Trigger Objects; #eta^{reco}; N(#mu matched to trigger object) / N(#mu)' efficiencyEta_numer efficiencyEta_denom", 00014 "efficiencyPhi 'Efficiency to Match Reco Muons to Trigger Objects; #phi^{reco}; N(#mu matched to trigger object) / N(#mu)' efficiencyPhi_numer efficiencyPhi_denom", 00015 "efficiencyTurnOn 'Efficiency to Match Reco Muons to Trigger Objects; p_{T}^{reco}; N(#mu matched to trigger object) / N(#mu)' efficiencyTurnOn_numer efficiencyTurnOn_denom", 00016 "efficiencyD0 'Efficiency to Match Reco Muons to Trigger Objects; d0^{reco}; N(#mu matched to trigger object) / N(#mu)' efficiencyD0_numer efficiencyD0_denom", 00017 "efficiencyZ0 'Efficiency to Match Reco Muons to Trigger Objects; z0^{reco}; N(#mu matched to trigger object) / N(#mu)' efficiencyZ0_numer efficiencyZ0_denom", 00018 "efficiencyCharge 'Efficiency to Match Reco Muons to Trigger Objects; q^{reco}; N(#mu matched to trigger object) / N(#mu)' efficiencyCharge_numer efficiencyCharge_denom", 00019 "fakerateEta 'Trigger Fake Rate; #eta^{trigger}; N(unmatched trigger objects) / N(trigger objects)' fakerateEta_numer fakerateEta_denom", 00020 "fakeratePhi 'Trigger Fake Rate; #phi^{trigger}; N(unmatched trigger objects) / N(trigger objects)' fakeratePhi_numer fakeratePhi_denom", 00021 "fakerateTurnOn 'Trigger Fake Rate; p_{T}^{trigger}; N(unmatched trigger objects) / N(trigger objects)' fakerateTurnOn_numer fakerateTurnOn_denom", 00022 ), 00023 00024 )
Definition at line 3 of file MuonPostProcessor_cff.py.
Definition at line 56 of file MuonPostProcessor_cff.py.
00001 cms.EDAnalyzer("DQMGenericTnPClient", 00002 subDirs = cms.untracked.vstring("HLT/Muon/Distributions*"), 00003 #MyDQMrootFolder = cms.untracked.string("HLT/Muon/DistributionsVbtf/HLT_Mu5"), 00004 # Set this if you want to save info about each fit 00005 # SavePlotsInRootFileName = cms.untracked.string("fittingPlots.root"), 00006 Verbose = cms.untracked.bool(False), 00007 Efficiencies = cms.untracked.VPSet( 00008 ZPars.clone( 00009 NumeratorMEname = cms.untracked.string("massVsEta_numer"), 00010 DenominatorMEname = cms.untracked.string("massVsEta_denom"), 00011 EfficiencyMEname = cms.untracked.string("massVsEta_efficiency"), 00012 ), 00013 ) 00014 )
Definition at line 40 of file MuonPostProcessor_cff.py.
00001 cms.untracked.PSet( 00002 MassDimension = cms.untracked.int32(2), 00003 FitFunction = cms.untracked.string("VoigtianPlusExponential"), 00004 ExpectedMean = cms.untracked.double(91.), 00005 ExpectedSigma = cms.untracked.double(1.), 00006 FixedWidth = cms.untracked.double(2.5), 00007 FitRangeLow = cms.untracked.double(65), 00008 FitRangeHigh = cms.untracked.double(115), 00009 SignalRangeLow = cms.untracked.double(81), 00010 SignalRangeHigh = cms.untracked.double(101), 00011 )
Definition at line 28 of file MuonPostProcessor_cff.py.