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import FWCore.ParameterSet.Config as cms
from DQMOffline.JetMET.jetDQMConfig_cff import * # parameters for all jet analyzers
from DQMOffline.JetMET.jetMETDQMCleanup_cff import * # parameters for event cleanup
from DQMServices.Core.DQMEDAnalyzer import DQMEDAnalyzer
jetDQMAnalyzerAk4CaloUncleaned = DQMEDAnalyzer('JetAnalyzer',
JetType = cms.string('calo'),#pf, calo or jpt
JetCorrections = cms.InputTag("dqmAk4CaloL2L3ResidualCorrector"),
jetsrc = cms.InputTag("ak4CaloJets"),
METCollectionLabel = cms.InputTag("caloMet"),
muonsrc = cms.InputTag("muons"),
l1algoname = cms.string("L1Tech_BPTX_plus_AND_minus.v0"),
filljetHighLevel =cms.bool(False),
fillsubstructure =cms.bool(False),
ptMinBoosted = cms.double(400.),
#
#
#
highPtJetTrigger = cms.PSet(
andOr = cms.bool( False ),
dbLabel = cms.string("JetMETDQMTrigger"),
hltInputTag = cms.InputTag( "TriggerResults::HLT" ),
hltPaths = cms.vstring( 'HLT_PFJet450_v*'),
andOrHlt = cms.bool( True ),
errorReplyHlt = cms.bool( False ),
),
lowPtJetTrigger = cms.PSet(
andOr = cms.bool( False ),
dbLabel = cms.string("JetMETDQMTrigger"),
hltInputTag = cms.InputTag( "TriggerResults::HLT" ),
hltPaths = cms.vstring( 'HLT_PFJet80_v*'),
andOrHlt = cms.bool( True ),
errorReplyHlt = cms.bool( False ),
),
TriggerResultsLabel = cms.InputTag("TriggerResults::HLT"),
processname = cms.string("HLT"),
#
# Jet-related
#
JetCleaningFlag = cms.untracked.bool(False),
runcosmics = cms.untracked.bool(False),
#Cleanup parameters
CleaningParameters = cleaningParameters.clone(
bypassAllPVChecks = True,
),
#Only for JPT and CaloJetID -> need to define InputJetIDValueMap
InputJetIDValueMap = cms.InputTag("ak4JetID"),
#options for Calo and JPT: LOOSE,LOOSE_AOD,TIGHT,MINIMAL
#for PFJets: LOOSE,TIGHT
JetIDQuality = cms.string("LOOSE"),
#options for Calo and JPT: PURE09,DQM09,CRAFT08
#for PFJets: FIRSTDATA
JetIDVersion = cms.string("PURE09"),
#
#actually done only for PFJets at the moment
InputMVAPUIDDiscriminant = cms.InputTag("pileupJetIdEvaluatorDQM","fullDiscriminant"),
InputCutPUIDDiscriminant = cms.InputTag("pileupJetIdEvaluatorDQM","cutbasedDiscriminant"),
InputMVAPUIDValue = cms.InputTag("pileupJetIdEvaluatorDQM","fullId"),
InputCutPUIDValue = cms.InputTag("pileupJetIdEvaluatorDQM","cutbasedId"),
InputQGMultiplicity = cms.InputTag("QGTagger", "mult"),
InputQGLikelihood = cms.InputTag("QGTagger", "qgLikelihood"),
InputQGPtDToken = cms.InputTag("QGTagger", "ptD"),
InputQGAxis2 = cms.InputTag("QGTagger", "axis2"),
fillCHShistos =cms.bool(False),
#
# For jetAnalysis
#
jetAnalysis = jetDQMParameters.clone(),
#
# DCS
#
DCSFilterForJetMonitoring = cms.PSet(
DetectorTypes = cms.untracked.string("ecal:hbhe:hf"),
#DebugOn = cms.untracked.bool(True),
alwaysPass = cms.untracked.bool(False)
)
)
jetDQMAnalyzerAk4CaloCleaned=jetDQMAnalyzerAk4CaloUncleaned.clone(
JetCleaningFlag = True,
filljetHighLevel = False,
CleaningParameters = cleaningParameters.clone(
bypassAllPVChecks = True,
),
jetAnalysis=jetDQMParameters.clone(
ptThreshold = 20.,
asymmetryThirdJetCut = 30,
balanceThirdJetCut = 0.2,
)
)
jetDQMAnalyzerAk4PFUncleaned=jetDQMAnalyzerAk4CaloUncleaned.clone(
CleaningParameters = cleaningParameters.clone(
bypassAllPVChecks = False,
),
#for PFJets: LOOSE,TIGHT
JetIDQuality = cms.string("TIGHT"),
#options for Calo and JPT: PURE09,DQM09,CRAFT08
#for PFJets: RUN2ULCHS for 11_1_X onwards
JetIDVersion = cms.string("RUN2ULCHS"),
JetType = cms.string('pf'),#pf, calo or jpt
JetCorrections = cms.InputTag("dqmAk4PFL1FastL2L3ResidualCorrector"),
jetsrc = cms.InputTag("ak4PFJets"),
METCollectionLabel = cms.InputTag("pfMet"),
filljetHighLevel = cms.bool(False),
DCSFilterForJetMonitoring = cms.PSet(
DetectorTypes = cms.untracked.string("ecal:hbhe:hf:pixel:sistrip:es:muon"),
#DebugOn = cms.untracked.bool(True),
alwaysPass = cms.untracked.bool(False)
)
)
jetDQMAnalyzerAk4PFCleaned=jetDQMAnalyzerAk4PFUncleaned.clone(
JetCleaningFlag = True,
filljetHighLevel = False,
jetAnalysis=jetDQMParameters.clone(
ptThreshold = 20.,
asymmetryThirdJetCut = 30,
balanceThirdJetCut = 0.2,
),
METCollectionLabel = "pfMet"
)
jetDQMAnalyzerAk4PFCHSCleaned=jetDQMAnalyzerAk4PFCleaned.clone(
filljetHighLevel = True,
JetCorrections = "dqmAk4PFCHSL1FastL2L3ResidualCorrector",
jetsrc = "ak4PFJetsCHS",
METCollectionLabel = "pfMETT1",
InputMVAPUIDDiscriminant = "pileupJetIdEvaluatorCHSDQM:fullDiscriminant",
InputCutPUIDDiscriminant = "pileupJetIdEvaluatorCHSDQM:cutbasedDiscriminant",
InputMVAPUIDValue = "pileupJetIdEvaluatorCHSDQM:fullId",
InputCutPUIDValue = "pileupJetIdEvaluatorCHSDQM:cutbasedId",
fillCHShistos = True
)
jetDQMAnalizerAk4PUPPICleaned=jetDQMAnalyzerAk4PFCleaned.clone(
JetType = cms.string('puppi'),
jetsrc = "ak4PFJetsPuppi",
METCollectionLabel = "pfMetPuppi",
JetCorrections = cms.InputTag("dqmAk4PFPuppiL1FastL2L3ResidualCorrector"),
JetIDVersion = "RUN2ULPUPPI",
JetIDQuality = cms.string("TIGHT"),
fillCHShistos = True,
)
jetDQMAnalyzerAk4ScoutingUncleaned = jetDQMAnalyzerAk4CaloUncleaned.clone(
JetType = cms.string('scouting'),
JetCorrections = cms.InputTag("dqmAk4PFScoutingL1FastL2L3ResidualCorrector"),
jetsrc = cms.InputTag("hltScoutingPFPacker"), ###---> this name goes to GUI and TTree under .../JetMET/Run summary/Jet
srcRho = cms.InputTag("hltScoutingPFPacker","rho"),
METCollectionLabel = cms.InputTag("hltScoutingPFPacker","pfMetPt"), ###---> this name goes to GUI and TTree under .../JetMET/Run summary/MET
muonsrc = cms.InputTag("hltScoutingMuonPackerNoVtx","","HLT"),
l1algoname = cms.string("L1Tech_BPTX_plus_AND_minus.v0"),
filljetHighLevel = False, ### for plots: "vertices" and "cleanup" in .../JetMET/Run summary/
fillsubstructure = False,
highPtJetTrigger = cms.PSet(
andOr = cms.bool( False ),
dbLabel = cms.string("JetMETDQMTrigger"),
hltInputTag = cms.InputTag( "TriggerResults::HLT" ),
hltPaths = cms.vstring( 'DST_PFScouting_JetHT_v*'),
andOrHlt = cms.bool( True ),
errorReplyHlt = cms.bool( False ),
),
lowPtJetTrigger = cms.PSet(
andOr = cms.bool( False ),
dbLabel = cms.string("JetMETDQMTrigger"),
hltInputTag = cms.InputTag( "TriggerResults::HLT" ),
hltPaths = cms.vstring( 'DST_PFScouting_ZeroBias_v*'),
andOrHlt = cms.bool( True ),
errorReplyHlt = cms.bool( False ),
),
TriggerResultsLabel = cms.InputTag("TriggerResults::HLT"),
processname = cms.string("HLT"),
#
# Jet-related
#
JetCleaningFlag = cms.untracked.bool(False),
runcosmics = False,
#Cleanup parameters
CleaningParameters = cleaningParameters.clone(
bypassAllPVChecks = False,
),
#for scouting PF jets: TIGHT
JetIDQuality = cms.string("TIGHT"),
#for scouting PF jets: RUN3Scouting
JetIDVersion = cms.string("RUN3Scouting"),
#
#Pileup JetID anf quark-gluon discrimination not exist for scouting PF jets. The following: actually done only for PFJets at the moment
###InputMVAPUIDDiscriminant = cms.InputTag("pileupJetIdEvaluatorDQM","fullDiscriminant"),
###InputCutPUIDDiscriminant = cms.InputTag("pileupJetIdEvaluatorDQM","cutbasedDiscriminant"),
###InputMVAPUIDValue = cms.InputTag("pileupJetIdEvaluatorDQM","fullId"),
###InputCutPUIDValue = cms.InputTag("pileupJetIdEvaluatorDQM","cutbasedId"),
###InputQGMultiplicity = cms.InputTag("QGTagger", "mult"),
###InputQGLikelihood = cms.InputTag("QGTagger", "qgLikelihood"),
###InputQGPtDToken = cms.InputTag("QGTagger", "ptD"),
###InputQGAxis2 = cms.InputTag("QGTagger", "axis2"),
fillCHShistos = False,
#
# For jetAnalysis
#
jetAnalysis = jetDQMParameters.clone(),
#
# DCS ### -> only used in JetMETDQMFilter.cc
#
DCSFilterForJetMonitoring = cms.PSet(
DetectorTypes = cms.untracked.string("ecal:hbhe:hf:pixel:sistrip:es:muon"),
#DebugOn = cms.untracked.bool(True),
alwaysPass = cms.untracked.bool(False)
)
)
jetDQMAnalyzerAk4ScoutingCleaned = jetDQMAnalyzerAk4ScoutingUncleaned.clone(
JetCleaningFlag = True
)
jetDQMAnalyzerAk4PFCHSUncleanedMiniAOD=jetDQMAnalyzerAk4PFUncleaned.clone(
filljetHighLevel = True,
CleaningParameters = cleaningParameters.clone(
vertexCollection = "goodOfflinePrimaryVerticesDQMforMiniAOD" ,
),
JetType = 'miniaod',#pf, calo or jpt
jetsrc = "slimmedJets",
METCollectionLabel = "slimmedMETs"
)
jetDQMAnalyzerAk4PFCHSCleanedMiniAOD=jetDQMAnalyzerAk4PFCleaned.clone(
CleaningParameters = cleaningParameters.clone(
vertexCollection = "goodOfflinePrimaryVerticesDQMforMiniAOD"
),
JetType = 'miniaod',#pf, calo or jpt
jetsrc = "slimmedJets"
)
jetDQMAnalyzerAk8PFPUPPICleanedMiniAOD=jetDQMAnalyzerAk4PFCHSCleanedMiniAOD.clone(
jetsrc = "slimmedJetsAK8",
#for PUPPI jets: TIGHT
JetIDQuality = "TIGHT",
#for PUPPI jets: RUN2ULPUPPI from 11_1_X onwards
JetIDVersion = "RUN2ULPUPPI",
fillsubstructure =True
)
jetDQMAnalyzerAk4PFCHSPuppiCleanedMiniAOD=jetDQMAnalyzerAk4PFCHSCleanedMiniAOD.clone(
JetType = 'miniaod',#pf, calo or jpt
jetsrc = "slimmedJetsPuppi",
#for PUPPI jets: TIGHT
JetIDQuality = "TIGHT",
#for PUPPI jets: RUN2ULPUPPI from 11_1_X onwards
JetIDVersion = "RUN2ULPUPPI"
)
jetDQMAnalyzerIC5CaloHIUncleaned=jetDQMAnalyzerAk4CaloUncleaned.clone(
filljetHighLevel = True,
CleaningParameters = cleaningParameters.clone(
bypassAllPVChecks = False,
vertexCollection = "hiSelectedVertex",
),
JetType = 'calo',#pf, calo or jpt
JetCorrections = "",# no jet correction available yet?
jetsrc = "iterativeConePu5CaloJets",
JetCleaningFlag = False,
runcosmics = True,
DCSFilterForJetMonitoring = dict(
DetectorTypes = "ecal:hbhe:hf:pixel:sistrip:es:muon",
#DebugOn = True,
alwaysPass = False
)
)
jetDQMAnalyzerAkPU3Calo = DQMEDAnalyzer('JetAnalyzer_HeavyIons',
JetType = cms.untracked.string('calo'),
UEAlgo = cms.untracked.string('Pu'),
OutputFile = cms.untracked.string(''),
src = cms.InputTag("akPu3CaloJets"),
PFcands = cms.InputTag("particleFlowTmp"),
Background = cms.InputTag("voronoiBackgroundCalo"),
#srcRho = cms.InputTag("iterativeConePu5CaloJets","rho"),
centralitycollection = cms.InputTag("hiCentrality"),
centralitybincollection = cms.InputTag("centralityBin","HFtowers"),
JetCorrections = cms.string(""),
recoJetPtThreshold = cms.double(10),
RThreshold = cms.double(0.3),
reverseEnergyFractionThreshold = cms.double(0.5)
)
jetDQMAnalyzerAkPU4Calo = jetDQMAnalyzerAkPU3Calo.clone(src = "akPu4CaloJets")
jetDQMAnalyzerAkPU5Calo = jetDQMAnalyzerAkPU3Calo.clone(src = "akPu5CaloJets")
jetDQMAnalyzerAkPU3PF = DQMEDAnalyzer('JetAnalyzer_HeavyIons',
JetType = cms.untracked.string('pf'),
UEAlgo = cms.untracked.string('Pu'),
OutputFile = cms.untracked.string(''),
src = cms.InputTag("akPu3PFJets"),
PFcands = cms.InputTag("particleFlowTmp"),
Background = cms.InputTag("voronoiBackgroundPF"),
centralitycollection = cms.InputTag("hiCentrality"),
centralitybincollection = cms.InputTag("centralityBin","HFtowers"),
JetCorrections = cms.string(""),
recoJetPtThreshold = cms.double(10),
RThreshold = cms.double(0.3),
reverseEnergyFractionThreshold = cms.double(0.5)
)
jetDQMAnalyzerAkPU4PF = jetDQMAnalyzerAkPU3PF.clone(src = "akPu4PFJets")
jetDQMAnalyzerAkPU5PF = jetDQMAnalyzerAkPU3PF.clone(src = "akPu5PFJets")
jetDQMAnalyzerAkCs3PF = DQMEDAnalyzer('JetAnalyzer_HeavyIons',
JetType = cms.untracked.string('pf'),
UEAlgo = cms.untracked.string('Cs'),
OutputFile = cms.untracked.string(''),
src = cms.InputTag("akCs3PFJets"),
CScands = cms.InputTag("akCs3PFJets","pfParticlesCs"),
PFcands = cms.InputTag("particleFlowTmp"),
centralitycollection = cms.InputTag("hiCentrality"),
#centralitybincollection = cms.InputTag("centralityBin","HFtowers"),
JetCorrections = cms.string(""),
recoJetPtThreshold = cms.double(10),
RThreshold = cms.double(0.3),
reverseEnergyFractionThreshold = cms.double(0.5),
etaMap = cms.InputTag('hiFJRhoProducer','mapEtaEdges'),
rho = cms.InputTag('hiFJRhoProducer','mapToRho'),
rhom = cms.InputTag('hiFJRhoProducer','mapToRhoM')
)
jetDQMAnalyzerAkCs4PF=jetDQMAnalyzerAkCs3PF.clone(src = "akCs4PFJets",
CScands = "akCs4PFJets:pfParticlesCs"
)
jetDQMMatchAkPu3CaloAkPu3PF = DQMEDAnalyzer('JetAnalyzer_HeavyIons_matching',
src_Jet1 = cms.InputTag("akPu3CaloJets"),
src_Jet2 = cms.InputTag("akPu3PFJets"),
Jet1 = cms.untracked.string("PuCalo"),
Jet2 = cms.untracked.string("PuPF"),
recoJetPtThreshold = cms.double(20.),
recoDelRMatch = cms.double(0.2),
recoJetEtaCut = cms.double(2.0)
)
jetDQMMatchAkPu4CaloAkPu4PF = DQMEDAnalyzer('JetAnalyzer_HeavyIons_matching',
src_Jet1 = cms.InputTag("akPu4CaloJets"),
src_Jet2 = cms.InputTag("akPu4PFJets"),
Jet1 = cms.untracked.string("PuCalo"),
Jet2 = cms.untracked.string("PuPF"),
recoJetPtThreshold = cms.double(20.),
recoDelRMatch = cms.double(0.2),
recoJetEtaCut = cms.double(2.0)
)
jetDQMMatchAkPu5CaloAkPu5PF = DQMEDAnalyzer('JetAnalyzer_HeavyIons_matching',
src_Jet1 = cms.InputTag("akPu5CaloJets"),
src_Jet2 = cms.InputTag("akPu5PFJets"),
Jet1 = cms.untracked.string("PuCalo"),
Jet2 = cms.untracked.string("PuPF"),
recoJetPtThreshold = cms.double(20.),
recoDelRMatch = cms.double(0.2),
recoJetEtaCut = cms.double(2.0)
)
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