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jetsAK4_Puppi_cff.py
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1 import FWCore.ParameterSet.Config as cms
2 
4 from PhysicsTools.NanoAOD.simpleCandidateFlatTableProducer_cfi import simpleCandidateFlatTableProducer
5 
6 
7 
9 # Note: Safe to always add 'L2L3Residual' as MC contains dummy L2L3Residual corrections (always set to 1)
10 # (cf. https://twiki.cern.ch/twiki/bin/view/CMSPublic/WorkBookJetEnergyCorrections#CMSSW_7_6_4_and_above )
11 jetPuppiCorrFactorsNano = patJetCorrFactors.clone(src='slimmedJetsPuppi',
12  levels = cms.vstring('L1FastJet',
13  'L2Relative',
14  'L3Absolute',
15  'L2L3Residual'),
16  payload = cms.string('AK4PFPuppi'),
17  primaryVertices = cms.InputTag("offlineSlimmedPrimaryVertices"),
18 )
19 
21 
22 updatedJetsPuppi = updatedPatJets.clone(
23  addBTagInfo=False,
24  jetSource='slimmedJetsPuppi',
25  jetCorrFactorsSource=cms.VInputTag(cms.InputTag("jetPuppiCorrFactorsNano") ),
26 )
27 
28 tightJetPuppiId = cms.EDProducer("PatJetIDValueMapProducer",
29  filterParams=cms.PSet(
30  version = cms.string('RUN2ULPUPPI'),
31  quality = cms.string('TIGHT'),
32  ),
33  src = cms.InputTag("updatedJetsPuppi")
34 )
35 tightJetPuppiIdLepVeto = cms.EDProducer("PatJetIDValueMapProducer",
36  filterParams=cms.PSet(
37  version = cms.string('RUN2ULPUPPI'),
38  quality = cms.string('TIGHTLEPVETO'),
39  ),
40  src = cms.InputTag("updatedJetsPuppi")
41 )
42 
43 #HF shower shape recomputation
44 from RecoJets.JetProducers.hfJetShowerShape_cfi import hfJetShowerShape
45 hfJetPuppiShowerShapeforNanoAOD = hfJetShowerShape.clone(jets="updatedJetsPuppi",vertices="offlineSlimmedPrimaryVertices")
46 
47 updatedJetsPuppiWithUserData = cms.EDProducer("PATJetUserDataEmbedder",
48  src = cms.InputTag("updatedJetsPuppi"),
49  userFloats = cms.PSet(
50  hfsigmaEtaEta = cms.InputTag('hfJetPuppiShowerShapeforNanoAOD:sigmaEtaEta'),
51  hfsigmaPhiPhi = cms.InputTag('hfJetPuppiShowerShapeforNanoAOD:sigmaPhiPhi'),
52  ),
53  userInts = cms.PSet(
54  tightId = cms.InputTag("tightJetPuppiId"),
55  tightIdLepVeto = cms.InputTag("tightJetPuppiIdLepVeto"),
56  hfcentralEtaStripSize = cms.InputTag('hfJetPuppiShowerShapeforNanoAOD:centralEtaStripSize'),
57  hfadjacentEtaStripsSize = cms.InputTag('hfJetPuppiShowerShapeforNanoAOD:adjacentEtaStripsSize'),
58  ),
59 )
60 
61 finalJetsPuppi = cms.EDFilter("PATJetRefSelector",
62  src = cms.InputTag("updatedJetsPuppiWithUserData"),
63  cut = cms.string("pt > 15")
64 )
65 
66 
67 jetPuppiTable = simpleCandidateFlatTableProducer.clone(
68  src = cms.InputTag("linkedObjects","jets"),
69  name = cms.string("Jet"),
70  doc = cms.string("slimmedJetsPuppi, i.e. ak4 PFJets Puppi with JECs applied, after basic selection (" + finalJetsPuppi.cut.value()+")"),
71  externalVariables = cms.PSet(),
72  variables = cms.PSet(P4Vars,
73  area = Var("jetArea()", float, doc="jet catchment area, for JECs",precision=10),
74  nMuons = Var("?hasOverlaps('muons')?overlaps('muons').size():0", int, doc="number of muons in the jet"),
75  muonIdx1 = Var("?overlaps('muons').size()>0?overlaps('muons')[0].key():-1", int, doc="index of first matching muon"),
76  muonIdx2 = Var("?overlaps('muons').size()>1?overlaps('muons')[1].key():-1", int, doc="index of second matching muon"),
77  electronIdx1 = Var("?overlaps('electrons').size()>0?overlaps('electrons')[0].key():-1", int, doc="index of first matching electron"),
78  electronIdx2 = Var("?overlaps('electrons').size()>1?overlaps('electrons')[1].key():-1", int, doc="index of second matching electron"),
79  nElectrons = Var("?hasOverlaps('electrons')?overlaps('electrons').size():0", int, doc="number of electrons in the jet"),
80  svIdx1 = Var("?overlaps('vertices').size()>0?overlaps('vertices')[0].key():-1", int, doc="index of first matching secondary vertex"),
81  svIdx2 = Var("?overlaps('vertices').size()>1?overlaps('vertices')[1].key():-1", int, doc="index of second matching secondary vertex"),
82  nSVs = Var("?hasOverlaps('vertices')?overlaps('vertices').size():0", int, doc="number of secondary vertices in the jet"),
83  btagDeepB = Var("?(bDiscriminator('pfDeepCSVJetTags:probb')+bDiscriminator('pfDeepCSVJetTags:probbb'))>=0?bDiscriminator('pfDeepCSVJetTags:probb')+bDiscriminator('pfDeepCSVJetTags:probbb'):-1",float,doc="DeepCSV b+bb tag discriminator",precision=10),
84  btagDeepFlavB = Var("bDiscriminator('pfDeepFlavourJetTags:probb')+bDiscriminator('pfDeepFlavourJetTags:probbb')+bDiscriminator('pfDeepFlavourJetTags:problepb')",float,doc="DeepJet b+bb+lepb tag discriminator",precision=10),
85  btagCSVV2 = Var("bDiscriminator('pfCombinedInclusiveSecondaryVertexV2BJetTags')",float,doc=" pfCombinedInclusiveSecondaryVertexV2 b-tag discriminator (aka CSVV2)",precision=10),
86  btagDeepCvL = Var("?bDiscriminator('pfDeepCSVJetTags:probc')>=0?bDiscriminator('pfDeepCSVJetTags:probc')/(bDiscriminator('pfDeepCSVJetTags:probc')+bDiscriminator('pfDeepCSVJetTags:probudsg')):-1", float,doc="DeepCSV c vs udsg discriminator",precision=10),
87  btagDeepCvB = Var("?bDiscriminator('pfDeepCSVJetTags:probc')>=0?bDiscriminator('pfDeepCSVJetTags:probc')/(bDiscriminator('pfDeepCSVJetTags:probc')+bDiscriminator('pfDeepCSVJetTags:probb')+bDiscriminator('pfDeepCSVJetTags:probbb')):-1",float,doc="DeepCSV c vs b+bb discriminator",precision=10),
88  btagDeepFlavCvL = Var("?(bDiscriminator('pfDeepFlavourJetTags:probc')+bDiscriminator('pfDeepFlavourJetTags:probuds')+bDiscriminator('pfDeepFlavourJetTags:probg'))>0?bDiscriminator('pfDeepFlavourJetTags:probc')/(bDiscriminator('pfDeepFlavourJetTags:probc')+bDiscriminator('pfDeepFlavourJetTags:probuds')+bDiscriminator('pfDeepFlavourJetTags:probg')):-1",float,doc="DeepJet c vs uds+g discriminator",precision=10),
89  btagDeepFlavCvB = Var("?(bDiscriminator('pfDeepFlavourJetTags:probc')+bDiscriminator('pfDeepFlavourJetTags:probb')+bDiscriminator('pfDeepFlavourJetTags:probbb')+bDiscriminator('pfDeepFlavourJetTags:problepb'))>0?bDiscriminator('pfDeepFlavourJetTags:probc')/(bDiscriminator('pfDeepFlavourJetTags:probc')+bDiscriminator('pfDeepFlavourJetTags:probb')+bDiscriminator('pfDeepFlavourJetTags:probbb')+bDiscriminator('pfDeepFlavourJetTags:problepb')):-1",float,doc="DeepJet c vs b+bb+lepb discriminator",precision=10),
90  btagDeepFlavQG = Var("?(bDiscriminator('pfDeepFlavourJetTags:probg')+bDiscriminator('pfDeepFlavourJetTags:probuds'))>0?bDiscriminator('pfDeepFlavourJetTags:probg')/(bDiscriminator('pfDeepFlavourJetTags:probg')+bDiscriminator('pfDeepFlavourJetTags:probuds')):-1",float,doc="DeepJet g vs uds discriminator",precision=10),
91  jetId = Var("userInt('tightId')*2+4*userInt('tightIdLepVeto')",int,doc="Jet ID flag: bit2 is tight, bit3 is tightLepVeto"),
92  hfsigmaEtaEta = Var("userFloat('hfsigmaEtaEta')",float,doc="sigmaEtaEta for HF jets (noise discriminating variable)",precision=10),
93  hfsigmaPhiPhi = Var("userFloat('hfsigmaPhiPhi')",float,doc="sigmaPhiPhi for HF jets (noise discriminating variable)",precision=10),
94  hfcentralEtaStripSize = Var("userInt('hfcentralEtaStripSize')", int, doc="eta size of the central tower strip in HF (noise discriminating variable)"),
95  hfadjacentEtaStripsSize = Var("userInt('hfadjacentEtaStripsSize')", int, doc="eta size of the strips next to the central tower strip in HF (noise discriminating variable)"),
96  nConstituents = Var("numberOfDaughters()","uint8",doc="Number of particles in the jet"),
97  rawFactor = Var("1.-jecFactor('Uncorrected')",float,doc="1 - Factor to get back to raw pT",precision=6),
98  chHEF = Var("chargedHadronEnergyFraction()", float, doc="charged Hadron Energy Fraction", precision= 6),
99  neHEF = Var("neutralHadronEnergyFraction()", float, doc="neutral Hadron Energy Fraction", precision= 6),
100  chEmEF = Var("chargedEmEnergyFraction()", float, doc="charged Electromagnetic Energy Fraction", precision= 6),
101  neEmEF = Var("neutralEmEnergyFraction()", float, doc="neutral Electromagnetic Energy Fraction", precision= 6),
102  muEF = Var("muonEnergyFraction()", float, doc="muon Energy Fraction", precision= 6),
103  )
104 )
105 
106 #jets are not as precise as muons
107 jetPuppiTable.variables.pt.precision=10
108 
109 
112 basicJetsPuppiForMetForT1METNano = cms.EDProducer("PATJetCleanerForType1MET",
113  src = updatedJetsPuppiWithUserData.src,
114  jetCorrEtaMax = cms.double(9.9),
115  jetCorrLabel = cms.InputTag("L3Absolute"),
116  jetCorrLabelRes = cms.InputTag("L2L3Residual"),
117  offsetCorrLabel = cms.InputTag("L1FastJet"),
118  skipEM = cms.bool(False),
119  skipEMfractionThreshold = cms.double(0.9),
120  skipMuonSelection = cms.string('isGlobalMuon | isStandAloneMuon'),
121  skipMuons = cms.bool(True),
122  type1JetPtThreshold = cms.double(0.0),
123  calcMuonSubtrRawPtAsValueMap = cms.bool(True)
124 )
125 
126 updatedJetsPuppiWithUserData.userFloats.muonSubtrRawPt = cms.InputTag("basicJetsPuppiForMetForT1METNano:MuonSubtrRawPt")
127 
128 corrT1METJetPuppiTable = simpleCandidateFlatTableProducer.clone(
129  src = finalJetsPuppi.src,
130  cut = cms.string("pt<15 && abs(eta)<9.9"),
131  name = cms.string("CorrT1METJet"),
132  doc = cms.string("Additional low-pt ak4 Puppi jets for Type-1 MET re-correction"),
133  variables = cms.PSet(
134  rawPt = Var("pt()*jecFactor('Uncorrected')",float,precision=10),
135  eta = Var("eta", float,precision=12),
136  phi = Var("phi", float, precision=12),
137  area = Var("jetArea()", float, doc="jet catchment area, for JECs",precision=10),
138  )
139 )
140 
141 corrT1METJetPuppiTable.variables.muonSubtrFactor = Var("1-userFloat('muonSubtrRawPt')/(pt()*jecFactor('Uncorrected'))",float,doc="1-(muon-subtracted raw pt)/(raw pt)",precision=6)
142 jetPuppiTable.variables.muonSubtrFactor = Var("1-userFloat('muonSubtrRawPt')/(pt()*jecFactor('Uncorrected'))",float,doc="1-(muon-subtracted raw pt)/(raw pt)",precision=6)
143 
144 jetPuppiForMETTask = cms.Task(basicJetsPuppiForMetForT1METNano,corrT1METJetPuppiTable)
145 
146 #before cross linking
147 jetPuppiUserDataTask = cms.Task(tightJetPuppiId, tightJetPuppiIdLepVeto, hfJetPuppiShowerShapeforNanoAOD)
148 
149 #before cross linking
150 jetPuppiTask = cms.Task(jetPuppiCorrFactorsNano,updatedJetsPuppi,jetPuppiUserDataTask,updatedJetsPuppiWithUserData,finalJetsPuppi)
151 
152 #after cross linkining
153 jetPuppiTablesTask = cms.Task(jetPuppiTable)
def Var(expr, valtype, doc=None, precision=-1)
Definition: common_cff.py:16
User floats producers, selectors ##########################.