diff --git a/PhysicsTools/NanoAOD/python/run3scouting_cff.py b/PhysicsTools/NanoAOD/python/run3scouting_cff.py index 869f04602a821..c6135496fe900 100644 --- a/PhysicsTools/NanoAOD/python/run3scouting_cff.py +++ b/PhysicsTools/NanoAOD/python/run3scouting_cff.py @@ -3,7 +3,7 @@ from PhysicsTools.NanoAOD.simpleCandidateFlatTableProducer_cfi import simpleCandidateFlatTableProducer ################ -# Scouting photons, electrons, muons, tracks, primary vertices, displaced vertices, rho and MET +# Scouting photons, electrons, muons, tracks, primary vertices, displaced vertices, jets (clustered at HLT), rho and MET photonScoutingTable = cms.EDProducer("SimpleRun3ScoutingPhotonFlatTableProducer", src = cms.InputTag("hltScoutingEgammaPacker"), @@ -141,7 +141,7 @@ nValidStripHits = Var('tk_nValidStripHits', 'int', doc='number of valid strip hits'), nTrackerLayersWithMeasurement = Var('tk_nTrackerLayersWithMeasurement', 'int', doc='number of tracker layers with measurements'), qoverp = Var('tk_qoverp', 'float', precision=10, doc='qoverp'), - _lambda = Var('tk_lambda', 'float', precision=10, doc='lambda'), + lambda_ = Var('tk_lambda', 'float', precision=10, doc='lambda'), dxyError = Var('tk_dxy_Error', 'float', precision=10, doc='dxyError'), dzError = Var('tk_dz_Error', 'float', precision=10, doc='dzError'), qoverpError = Var('tk_qoverp_Error', 'float', precision=10, doc='qoverpError'), @@ -208,6 +208,35 @@ ) ) +jetScoutingTable = cms.EDProducer("SimpleRun3ScoutingPFJetFlatTableProducer", + src = cms.InputTag("hltScoutingPFPacker"), + cut = cms.string(""), + name = cms.string("ScoutingPFJet"), + doc = cms.string("PFJet scouting information"), + singleton = cms.bool(False), + extension = cms.bool(False), + variables = cms.PSet( + P3Vars, + m = Var('m', 'float', precision=10, doc='mass'), + jetArea = Var('jetArea', 'float', precision=10, doc='jet area'), + chargedHadronEnergy = Var('chargedHadronEnergy', 'float', precision=10, doc='charged hadron energy'), + neutralHadronEnergy = Var('neutralHadronEnergy', 'float', precision=10, doc='neutral hadron energy'), + photonEnergy = Var('photonEnergy', 'float', precision=10, doc='photon energy'), + electronEnergy = Var('electronEnergy', 'float', precision=10, doc='electron energy'), + muonEnergy = Var('muonEnergy', 'float', precision=10, doc='muon energy'), + HFHadronEnergy = Var('HFHadronEnergy', 'float', precision=10, doc='hadronic energy in HF'), + HFEMEnergy = Var('HFEMEnergy', 'float', precision=10, doc='electromagnetic energy in HF'), + chargedHadronMultiplicity = Var('chargedHadronMultiplicity', 'int', doc='number of charged hadrons in the jet'), + neutralHadronMultiplicity = Var('neutralHadronMultiplicity', 'int', doc='number of neutral hadrons in the jet'), + photonMultiplicity = Var('photonMultiplicity', 'int', doc='number of photons in the jet'), + electronMultiplicity = Var('electronMultiplicity', 'int', doc='number of electrons in the jet'), + muonMultiplicity = Var('muonMultiplicity', 'int', doc='number of muons in the jet'), + HFHadronMultiplicity = Var('HFHadronMultiplicity', 'int', doc='number of HF hadronic particles in the jet'), + HFEMMultiplicity = Var('HFEMMultiplicity', 'int', doc='number of HF electromagnetic particles in the jet'), + HOEnergy = Var('HOEnergy', 'float', precision=10, doc='hadronic energy in HO'), + ) +) + rhoScoutingTable = cms.EDProducer("GlobalVariablesTableProducer", name = cms.string(""), variables = cms.PSet( @@ -334,9 +363,9 @@ ak4ScoutingJetTable = cms.EDProducer("SimplePFJetFlatTableProducer", src = cms.InputTag("ak4ScoutingJets"), - name = cms.string("ScoutingJet"), + name = cms.string("ScoutingCHSJetRecluster"), cut = cms.string(""), - doc = cms.string("ScoutingJet"), + doc = cms.string("ak4 jets from re-clustering scouting PF candidates with CHS applied"), singleton = cms.bool(False), extension = cms.bool(False), # this is the main table externalVariables = cms.PSet( @@ -344,7 +373,7 @@ particleNet_prob_bb = ExtVar(cms.InputTag('ak4ScoutingJetParticleNetJetTags:probbb'), float, doc="ParticleNet probability of bb", precision=10), particleNet_prob_c = ExtVar(cms.InputTag('ak4ScoutingJetParticleNetJetTags:probc'), float, doc="ParticleNet probability of c", precision=10), particleNet_prob_cc = ExtVar(cms.InputTag('ak4ScoutingJetParticleNetJetTags:probcc'), float, doc="ParticleNet probability of cc", precision=10), - particlenet_prob_uds = ExtVar(cms.InputTag('ak4ScoutingJetParticleNetJetTags:probuds'), float, doc="particlenet probability of uds", precision=10), + particleNet_prob_uds = ExtVar(cms.InputTag('ak4ScoutingJetParticleNetJetTags:probuds'), float, doc="particlenet probability of uds", precision=10), particleNet_prob_g = ExtVar(cms.InputTag('ak4ScoutingJetParticleNetJetTags:probg'), float, doc="ParticleNet probability of g", precision=10), particleNet_prob_undef = ExtVar(cms.InputTag('ak4ScoutingJetParticleNetJetTags:probundef'), float, doc="ParticleNet probability of undef", precision=10), ), @@ -374,7 +403,7 @@ ak4ScoutingJetExtTable = cms.EDProducer("SimpleCandidateFlatTableProducer", src = cms.InputTag("ak4ScoutingJets"), - name = cms.string("ScoutingJet"), + name = cms.string("ScoutingCHSJetRecluster"), cut = cms.string(""), singleton = cms.bool(False), extension = cms.bool(True), @@ -455,7 +484,7 @@ src = cms.InputTag("ak8ScoutingJetParticleNetJetTagInfos"), preprocess_json = cms.string("RecoBTag/Combined/data/Run3Scouting/ParticleNetAK8/General/V00/preprocess.json"), model_path = cms.FileInPath("RecoBTag/Combined/data/Run3Scouting/ParticleNetAK8/General/V00/particle-net.onnx"), - flav_names = cms.vstring(["probHbb", "probHcc","probHqq", "probQCDall"]), + flav_names = cms.vstring([ "probQCDall", "probHbb", "probHcc", "probHqq"]), debugMode = cms.untracked.bool(False), ) @@ -471,9 +500,9 @@ ak8ScoutingJetTable = cms.EDProducer("SimplePFJetFlatTableProducer", src = cms.InputTag("ak8ScoutingJets"), - name = cms.string("ScoutingFatJet"), + name = cms.string("ScoutingFatCHSJetRecluster"), cut = cms.string(""), - doc = cms.string("ScoutingFatJet"), + doc = cms.string("ak8 jets from re-clustering scouting PF candidates with CHS applied"), singleton = cms.bool(False), extension = cms.bool(False), # this is the main table externalVariables = cms.PSet( @@ -486,10 +515,10 @@ tau3 = ExtVar(cms.InputTag('ak8ScoutingJetNjettiness:tau3'), float, doc="Nsubjettiness (3 axis)", precision=10), tau4 = ExtVar(cms.InputTag('ak8ScoutingJetNjettiness:tau4'), float, doc="Nsubjettiness (4 axis)", precision=10), particleNet_mass = ExtVar(cms.InputTag('ak8ScoutingJetParticleNetMassRegressionJetTags:mass'), float, doc="ParticleNet regressed mass", precision=10), + particleNet_prob_QCD = ExtVar(cms.InputTag('ak8ScoutingJetParticleNetJetTags:probQCDall'), float, doc="ParticleNet probability of QCD", precision=10), particleNet_prob_Hbb = ExtVar(cms.InputTag('ak8ScoutingJetParticleNetJetTags:probHbb'), float, doc="ParticleNet probability of Hbb", precision=10), particleNet_prob_Hcc = ExtVar(cms.InputTag('ak8ScoutingJetParticleNetJetTags:probHcc'), float, doc="ParticleNet probability of Hcc", precision=10), particleNet_prob_Hqq = ExtVar(cms.InputTag('ak8ScoutingJetParticleNetJetTags:probHqq'), float, doc="ParticleNet probability of Hqq", precision=10), - particleNet_prob_QCD = ExtVar(cms.InputTag('ak8ScoutingJetParticleNetJetTags:probQCDall'), float, doc="ParticleNet probability of QCD", precision=10), ), variables = cms.PSet( P4Vars, @@ -517,7 +546,7 @@ ak8ScoutingJetExtTable = cms.EDProducer("SimpleCandidateFlatTableProducer", src = cms.InputTag("ak8ScoutingJets"), - name = cms.string("ScoutingFatJet"), + name = cms.string("ScoutingFatCHSJetRecluster"), cut = cms.string(""), singleton = cms.bool(False), extension = cms.bool(True),