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import FWCore.ParameterSet.Config as cms
from DQMOffline.JetMET.jetMETDQMCleanup_cff import *
from DQMOffline.JetMET.metDiagnosticParameterSet_cfi import *
from DQMOffline.JetMET.metDiagnosticParameterSetMiniAOD_cfi import *
#jet corrector defined in jetMETDQMOfflineSource python file
from DQMServices.Core.DQMEDAnalyzer import DQMEDAnalyzer
caloMetDQMAnalyzer = DQMEDAnalyzer('METAnalyzer',
METType=cms.untracked.string('calo'),
srcPFlow = cms.InputTag('particleFlow', ''),
l1algoname = cms.string("L1Tech_BPTX_plus_AND_minus.v0"),
METCollectionLabel = cms.InputTag("caloMet"),
JetCollectionLabel = cms.InputTag("ak4CaloJets"),
JetCorrections = cms.InputTag("dqmAk4PFL1FastL2L3ResidualCorrector"),
muonsrc = cms.InputTag("muons"),
ptMinCand = cms.double(1.),
hcalMin =cms.double(1.),
InputJetIDValueMap = cms.InputTag("ak4JetID"),
ptThreshold =cms.double(30),
FolderName = cms.untracked.string("JetMET/MET/"),
fillMetHighLevel = cms.bool(True),#fills lumi overview plots
fillCandidateMaps = cms.bool(False),
CleaningParameters = cleaningParameters.clone(
bypassAllPVChecks = True, #needed for 0T running
),
METDiagonisticsParameters = multPhiCorr_METDiagnostics,
TriggerResultsLabel = cms.InputTag("TriggerResults::HLT"),
FilterResultsLabelMiniAOD = cms.InputTag("TriggerResults::RECO"),
FilterResultsLabelMiniAOD2 = cms.InputTag("TriggerResults::reRECO"),
onlyCleaned = cms.untracked.bool(True),
runcosmics = cms.untracked.bool(False),
LSBegin = cms.int32(0),
LSEnd = cms.int32(-1),
# HLTPathsJetMB = cms.vstring(),
# When it is empty, it accepts all the triggers
triggerSelectedSubFolders = cms.VPSet(
cms.PSet( label = cms.string('highPtJet'),
andOr = cms.bool( False ), #True -> OR #Comment this line to turn OFF
dbLabel = cms.string("JetMETDQMTrigger"),
hltInputTag = cms.InputTag( "TriggerResults::HLT" ),
# hltDBKey = cms.string( 'jetmet_highptjet' ), #overrides hltPaths!
hltPaths = cms.vstring( 'HLT_PFJet450_v*' ),
andOrHlt = cms.bool( True ),
errorReplyHlt = cms.bool( False ),
stage2 = cms.bool(False),
l1tAlgBlkInputTag = cms.InputTag("gtStage2Digis"),
l1tExtBlkInputTag = cms.InputTag("gtStage2Digis"),
ReadPrescalesFromFile = cms.bool(False),
),
cms.PSet(label = cms.string('lowPtJet'),
andOr = cms.bool( False ), #True -> OR #Comment this line to turn OFF
dbLabel = cms.string("JetMETDQMTrigger"),
hltInputTag = cms.InputTag( "TriggerResults::HLT" ),
# hltDBKey = cms.string( 'jetmet_lowptjet' ),#overrides hltPaths!
hltPaths = cms.vstring( 'HLT_PFJet80_v*' ),
andOrHlt = cms.bool( True ),
errorReplyHlt = cms.bool( True ),
stage2 = cms.bool(False),
l1tAlgBlkInputTag = cms.InputTag("gtStage2Digis"),
l1tExtBlkInputTag = cms.InputTag("gtStage2Digis"),
ReadPrescalesFromFile = cms.bool(False),
),
cms.PSet(label = cms.string('zeroBias'),
andOr = cms.bool( False ), #True -> OR #Comment this line to turn OFF
dbLabel = cms.string("JetMETDQMTrigger"),
hltInputTag = cms.InputTag( "TriggerResults::HLT" ),
#hltDBKey = cms.string( 'jetmet_minbias' ),#overrides hltPaths!
hltPaths = cms.vstring( 'HLT_ZeroBias_v*' ),
andOrHlt = cms.bool( True ),
errorReplyHlt = cms.bool( False ),
stage2 = cms.bool(False),
l1tAlgBlkInputTag = cms.InputTag("gtStage2Digis"),
l1tExtBlkInputTag = cms.InputTag("gtStage2Digis"),
ReadPrescalesFromFile = cms.bool(False),
),
cms.PSet(label = cms.string('highMET'),
andOr = cms.bool( False ), #True -> OR #Comment this line to turn OFF
dbLabel = cms.string("JetMETDQMTrigger"),
hltInputTag = cms.InputTag( "TriggerResults::HLT" ),
# hltDBKey = cms.string( 'jetmet_highmet' ),#overrides hltPaths!
hltPaths = cms.vstring( 'HLT_MET250_v*' ),
andOrHlt = cms.bool( True ),
errorReplyHlt = cms.bool( False ),
stage2 = cms.bool(False),
l1tAlgBlkInputTag = cms.InputTag("gtStage2Digis"),
l1tExtBlkInputTag = cms.InputTag("gtStage2Digis"),
ReadPrescalesFromFile = cms.bool(False),
),
#cms.PSet(label = cms.string('singleEle'),
# andOr = cms.bool( False ), #True -> OR #Comment this line to turn OFF
# dbLabel = cms.string("JetMETDQMTrigger"),
# hltInputTag = cms.InputTag( "TriggerResults::HLT" ),
# hltDBKey = cms.string( 'jetmet_ele' ),#overrides hltPaths!
# hltPaths = cms.vstring('HLT_Ele27_WP80_v*' ),
# andOrHlt = cms.bool( True ),
# errorReplyHlt = cms.bool( False ),
#),
cms.PSet(label = cms.string('singleMu'),
andOr = cms.bool( False ), #True -> OR #Comment this line to turn OFF
dbLabel = cms.string("JetMETDQMTrigger"),
hltInputTag = cms.InputTag( "TriggerResults::HLT" ),
# hltDBKey = cms.string( 'jetmet_muon' ),#overrides hltPaths!
hltPaths = cms.vstring( 'HLT_IsoMu24_eta2p1_v*', 'HLT_IsoMu27_v*'),
andOrHlt = cms.bool( True ),
errorReplyHlt = cms.bool( False ),
stage2 = cms.bool(False),
l1tAlgBlkInputTag = cms.InputTag("gtStage2Digis"),
l1tExtBlkInputTag = cms.InputTag("gtStage2Digis"),
ReadPrescalesFromFile = cms.bool(False),
)
),
HBHENoiseLabelMiniAOD = cms.string("Flag_HBHENoiseFilter"),
HBHEIsoNoiseLabelMiniAOD = cms.string("Flag_HBHEIsoNoiseFilter"),
HcalNoiseRBXCollection = cms.InputTag("hcalnoise"),
HBHENoiseFilterResultLabel = cms.InputTag("HBHENoiseFilterResultProducer", "HBHENoiseFilterResult"),
HBHENoiseIsoFilterResultLabel = cms.InputTag("HBHENoiseFilterResultProducer", "HBHEIsoNoiseFilterResult"),
CSCHaloResultLabel = cms.InputTag("CSCTightHaloFilterDQM"),
CSCHalo2015ResultLabel = cms.InputTag("CSCTightHalo2015FilterDQM"),
EcalDeadCellTriggerPrimitiveFilterLabel = cms.InputTag("EcalDeadCellTriggerPrimitiveFilterDQM"),
EcalDeadCellBoundaryEnergyFilterLabel = cms.InputTag("EcalDeadCellBoundaryEnergyFilterDQM"),
eeBadScFilterLabel = cms.InputTag("eeBadScFilterDQM"),
HcalStripHaloFilterLabel = cms.InputTag("HcalStripHaloFilterDQM"),
#if changed here, change certification module input in same manner and injetDQMconfig
pVBin = cms.int32(100),
pVMax = cms.double(100.0),
pVMin = cms.double(0.0),
verbose = cms.int32(0),
# etThreshold = cms.double(2.),
DCSFilter = cms.PSet(
DetectorTypes = cms.untracked.string("ecal:hbhe:hf"),
#DebugOn = cms.untracked.bool(True),
Filter = cms.untracked.bool(True)
),
)
#
# Make changes if using the Stage 2 trigger
#
from Configuration.Eras.Modifier_stage2L1Trigger_cff import stage2L1Trigger
stage2L1Trigger.toModify(caloMetDQMAnalyzer,
triggerSelectedSubFolders = {i: dict(stage2 = True,
l1tAlgBlkInputTag = "gtStage2Digis",
l1tExtBlkInputTag = "gtStage2Digis",
ReadPrescalesFromFile = True) for i in range(0, len(caloMetDQMAnalyzer.triggerSelectedSubFolders))})
pfMetDQMAnalyzer = caloMetDQMAnalyzer.clone(
METType = 'pf',
METCollectionLabel = "pfMet",
srcPFlow = 'particleFlow',
JetCollectionLabel = "ak4PFJets",
JetCorrections = "dqmAk4PFL1FastL2L3ResidualCorrector",
CleaningParameters = cleaningParameters.clone(
bypassAllPVChecks = False,
),
fillMetHighLevel = False,
fillCandidateMaps = True,
# if this flag is changed, the METTypeRECOUncleaned flag in dataCertificationJetMET_cfi.py
#has to be updated (by a string not pointing to an existing directory)
onlyCleaned = False,
DCSFilter = cms.PSet(
DetectorTypes = cms.untracked.string("ecal:hbhe:hf:pixel:sistrip:es:muon"),
#DebugOn = cms.untracked.bool(True),
Filter = cms.untracked.bool(True)
),
)
pfChMetDQMAnalyzer = pfMetDQMAnalyzer.clone(
METCollectionLabel = "pfChMet",
fillCandidateMaps = False,
onlyCleaned = True
)
#both CaloMET and type1 MET only cleaned plots are filled
pfMetT1DQMAnalyzer = caloMetDQMAnalyzer.clone(
METType = 'pf',
METCollectionLabel = "pfMETT1",
srcPFlow = 'particleFlow',
JetCollectionLabel = "ak4PFJetsCHS",
JetCorrections = "dqmAk4PFCHSL1FastL2L3ResidualCorrector",
CleaningParameters = cleaningParameters.clone(
bypassAllPVChecks = False,
),
fillMetHighLevel = False,
fillCandidateMaps = False,
DCSFilter = dict(
DetectorTypes = "ecal:hbhe:hf:pixel:sistrip:es:muon",
Filter = True
),
)
pfMetPUPPIDQMAnalyzer = pfMetDQMAnalyzer.clone(
METType = 'pf',
METCollectionLabel = "pfMetPuppi",
JetCollectionLabel = "ak4PFJetsPuppi",
JetCorrections = "dqmAk4PuppiL2L3ResidualCorrector",
)
pfMetDQMAnalyzerMiniAOD = pfMetDQMAnalyzer.clone(
fillMetHighLevel = True,#fills only lumisec plots
fillCandidateMaps = False,
srcPFlow = 'packedPFCandidates',
METDiagonisticsParameters = multPhiCorr_METDiagnosticsMiniAOD,
CleaningParameters = cleaningParameters.clone(
vertexCollection = "goodOfflinePrimaryVerticesDQMforMiniAOD",
),
METType = 'miniaod',
METCollectionLabel = "slimmedMETs",
JetCollectionLabel = "slimmedJets",
JetCorrections = "" #not called, since corrected by default
)
pfPuppiMetDQMAnalyzerMiniAOD = pfMetDQMAnalyzerMiniAOD.clone(
fillMetHighLevel = False,#fills only lumisec plots
fillCandidateMaps = True,
METType = 'miniaod',
METCollectionLabel = "slimmedMETsPuppi",
JetCollectionLabel = "slimmedJetsPuppi",
JetCorrections = "" #not called, since corrected by default
)
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