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import FWCore.ParameterSet.Config as cms
# BTagPerformanceAnalyzer configuration
from DQMOffline.RecoB.tagGenericAnalysis_cff import bTagGenericAnalysisBlock
from DQMOffline.RecoB.tagGenericAnalysis_cff import cTagGenericAnalysisBlock
from DQMOffline.RecoB.tagGenericAnalysis_cff import bTagTrackIPAnalysisBlock
from DQMOffline.RecoB.tagGenericAnalysis_cff import bTagProbabilityAnalysisBlock
bTagCommonBlock = cms.PSet(
# use pre-computed jet flavour identification
# new default is to use genparticles - and it is the only option
# Parameters which are common to all tagger algorithms
# rec. jet
ptRecJetMin = cms.double(30.0),
ptRecJetMax = cms.double(40000.0),
# eta
etaMin = cms.double(0.0),
etaMax = cms.double(2.5),
# lepton momentum to jet energy ratio, if you use caloJets put ratioMin to -1.0 and ratioMax to 0.8
ratioMin = cms.double(-9999.0),
ratioMax = cms.double(9999.0),
softLeptonInfo = cms.InputTag("softPFElectronsTagInfos"),
# Section for the jet flavour identification
jetMCSrc = cms.InputTag("mcJetFlavour"),
caloJetMCSrc = cms.InputTag(""), #To define only if you use the old flavour tool
useOldFlavourTool = cms.bool(False), #Recommended only for CaloJets, if True then define caloJetMCSrc and ignore jetMCSrc
# eta and pt ranges
ptRanges = cms.vdouble(50.0, 80.0, 120.0),
etaRanges = cms.vdouble(0.0, 1.4, 2.5),
#Jet ID and EnergyCorr.
doJetID = cms.bool(False),
doJEC = cms.bool(False),
JECsourceMC = cms.InputTag("ak4PFCHSL1FastL2L3Corrector"),
JECsourceData = cms.InputTag("ak4PFCHSL1FastL2L3ResidualCorrector"),
#tagger configuration
tagConfig = cms.VPSet(
cms.PSet(
bTagTrackIPAnalysisBlock,
type = cms.string('CandIP'),
label = cms.InputTag("pfImpactParameterTagInfos"),
folder = cms.string("IPTag")
),
cms.PSet(
bTagProbabilityAnalysisBlock,
label = cms.InputTag("pfJetProbabilityBJetTags"),
folder = cms.string("JP")
),
)
)
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