import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfigurator = CutSequenceProducer(initialCounter='initialEvents', pyModuleName=__name__, pyNameSpace=locals()) #Add smearing analysisConfigurator.addSmearing('patOverloadedTaus', 'patMuonsForAnalysis', 'convRejElectrons', 'patOverloadedJets', 'METInputTag') #Create di muon pairs for veto purposes analysisConfigurator.addDiCandidateModule('diMuons', 'PATMuPairProducer', 'smearedMuons', 'smearedMuons', 'smearedMET', 'smearedJets', 0, 9999, text='', leadingObjectsOnly=False, dR=0.15, recoMode="") analysisConfigurator.addSelector( 'osDiMuons', 'PATMuPairSelector', 'charge==0&&leg1.isGlobalMuon&&leg2.isGlobalMuon&&leg1.pt()>15&&leg2.pt()>15&&(leg1.chargedHadronIso()+max(0.0,leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0)))/leg1.pt()<0.2&&(leg2.chargedHadronIso()+max(0.0,leg2.photonIso+leg2.neutralHadronIso()-0.5*leg2.userIso(0)))/leg2.pt()<0.2', 'DiMuonCreation', 0, 100)
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfigurator = CutSequenceProducer(initialCounter = 'initialEvents', pyModuleName = __name__, pyNameSpace = locals()) analysisConfigurator.addSmearedAll('allMuons','goodMuons','vetoMuons','qcdMuons','allElectrons','goodElectrons','vetoElectrons','qcdElectrons','allJets','cleanJets','goodJets','fwdJets',mpost='') #analysisConfigurator.addSmearing('patOverloadedTaus','goodMuons','goodElectrons','cleanPatJets','metCorrected',mpost="good") #analysisConfigurator.addSmearing('patOverloadedTaus','allMuons','allElectrons','cleanPatJets','metCorrected',mpost="all") #analysisConfigurator.addSmearing('patOverloadedTaus','vetoMuons','vetoElectrons','cleanPatJets','metCorrected',mpost="veto") #analysisConfigurator.addSmearing('patOverloadedTaus','qcdMuons','qcdElectrons','cleanPatJets','metCorrected',mpost="qcd") #analysisConfigurator.addSmearing('patOverloadedTaus','selectedPatMuons','selectedPatElectrons','cleanPatJets','metCorrected') #DiMuonPreSel='leg1.isGlobalMuon && leg1.isTrackerMuon && leg2.isGlobalMuon && leg2.isTrackerMuon && leg1.pt()>20 && leg2.pt()>20 && leg1.charge * leg2.charge<0' #DiMuonPreSel2='(leg1.isolationR03().sumPt+leg1.isolationR03().emEt+leg1.isolationR03().hadEt)/leg1.pt()<0.15 ' #DiMuonPreSel3='(leg2.isolationR03().sumPt+leg2.isolationR03().emEt+leg2.isolationR03().hadEt)/leg2.pt()<0.15 ' # ##Make Di Muons to VETO DY ##analysisConfigurator.addDiCandidateModule('diMuons','PATMuPairProducer', 'smearedMuons','smearedMuons','smearedMET','smearedJets',0,9999,text = '',leadingObjectsOnly = True,dR = 0.15,recoMode = "") #analysisConfigurator.addDiCandidateModule('diMuons','PATMuPairProducer', 'smearedGoodMuons','smearedMuonsall','smearedMETall','smearedJetsall',0,9999,text = '',leadingObjectsOnly = True,dR = 0.15,recoMode = "") ##analysisConfigurator.addDiCandidateModule('diMuons','PATMuPairProducer', 'smearedMuonsgood','smearedMuonsgood','smearedMETgood','smearedJetsgood',0,9999,text = '',leadingObjectsOnly = True,dR = 0.15,recoMode = "") #analysisConfigurator.addSelector('diMuonsSel','PATMuPairSelector',DiMuonPreSel+'&&'+DiMuonPreSel2+'&&'+DiMuonPreSel3,'diMuonSel',0,999) #analysisConfigurator.addSorter('diMuonsSorted','PATMuPairSorter') # ##Make Muons+MET cleanPatJets ##analysisConfigurator.addCandidateMETModule('MuNuSel','PATMuonNuPairProducer','smearedMuonsgood','smearedMETgood','smearedJetsgood',0,9999,'MuNuSel',genParticles="genDaughters") ##analysisConfigurator.addCandidateMETModule('MuNuVeto','PATMuonNuPairProducer','smearedMuonsveto','smearedMETveto','smearedJetsveto',0,9999,'MuNuVeto',genParticles="genDaughters")
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * zMuMuAnalysisConfigurator = CutSequenceProducer(initialCounter = 'initialZMuMuEvents', pyModuleName = __name__, pyNameSpace = locals()) zMuMuAnalysisConfigurator.addDiCandidateModule('zMuMuCandidates','PATMuPairProducer', 'patMuonsForAnalysis','patMuonsForAnalysis','patMETs','patOverloadedJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") zMuMuAnalysisConfigurator.addSorter('zMuMuCandidatesSorted','PATMuPairSorter') zMuMuAnalysisConfigurator.addCandidateMETModule('wCands','PATMuonNuPairProducer','patMuonsForAnalysis','patMETs','selectedPatJets',1,9999,'AtLeastOneWCandidate') zMuMuAnalysisConfigurator.addDiCandidateModule('zwMuMuMuCandidates','PATMuMuMuNuQuadProducer','zMuMuCandidates','wCands','patMETs','patOverloadedJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") zMuMuAnalysisConfigurator.addSelector('zMuMuCandidatesID','PATMuMuMuNuQuadSelector','leg1.leg1.userFloat("isWWMuon")&&leg1.leg2.userFloat("isWWMuon")&&leg1.leg1.pt()>15&&leg1.leg2.pt()>15&&abs(leg1.leg1.eta)<2.4&&abs(leg1.leg2.eta)<2.4','ZMuMuID') zMuMuAnalysisConfigurator.addSelector('wMuCandidatesID','PATMuMuMuNuQuadSelector','leg2.lepton.userFloat("isWWMuon")&&leg2.lepton.pt()>15&&abs(leg2.lepton.eta)<2.4','wMuMuID') zMuMuAnalysisConfigurator.addSelector('zMuMuCandidatesIsol1','PATMuMuMuNuQuadSelector','(leg1.leg1.chargedHadronIso()+leg1.leg1.photonIso()+leg1.leg1.neutralHadronIso())/leg1.leg1.pt()<0.25','ZMuMuLeg1Iso') zMuMuAnalysisConfigurator.addSelector('zMuMuCandidatesIsol2','PATMuMuMuNuQuadSelector','(leg1.leg2.chargedHadronIso()+leg1.leg2.photonIso()+leg1.leg2.neutralHadronIso())/leg1.leg2.pt()<0.25','ZMuMuLeg2Iso') zMuMuAnalysisConfigurator.addSelector('wMuMuCandidatesIsol2','PATMuMuMuNuQuadSelector','(leg2.lepton.chargedHadronIso()+leg2.lepton.photonIso()+leg2.lepton.neutralHadronIso())/leg2.lepton.pt()<0.25','WLegIso') zMuMuAnalysisConfigurator.addSelector('zMuMuMuCandidates','PATMuMuMuNuQuadSelector','leg1.charge==0','ZMuMuOS',0,100) #create the sequence selectionSequence=zMuMuAnalysisConfigurator.returnSequence()
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfigurator = CutSequenceProducer(initialCounter = 'initialEvents', pyModuleName = __name__, pyNameSpace = locals()) #Add smearing analysisConfigurator.addSmearing('patOverloadedTaus','patMuonsForAnalysis','convRejElectrons','patOverloadedJets','METInputTag') #Create di muon pairs for veto purposes analysisConfigurator.addDiCandidateModule('diMuons','PATMuPairProducer', 'smearedMuons','smearedMuons','smearedMET','smearedJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") analysisConfigurator.addSelector('osDiMuons','PATMuPairSelector','charge==0&&leg1.isGlobalMuon&&leg2.isGlobalMuon&&leg1.pt()>15&&leg2.pt()>15&&(leg1.chargedHadronIso()+max(0.0,leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0)))/leg1.pt()<0.2&&(leg2.chargedHadronIso()+max(0.0,leg2.photonIso+leg2.neutralHadronIso()-0.5*leg2.userIso(0)))/leg2.pt()<0.2','DiMuonCreation',0,100) analysisConfigurator.addSorter('diMuonsSorted','PATMuPairSorter') #Make DiTaus analysisConfigurator.addDiCandidateModule('diTaus','PATMuTauPairProducer','smearedMuons','smearedTaus','smearedMET','smearedJets',1,9999,text='AtLeastOneDiTau',leadingObjectsOnly = False,dR = 0.5,recoMode ="",genParticles='genDaughters') analysisConfigurator.addSelector('diTausMuonID','PATMuTauPairSelector','leg1.userFloat("isWWMuon")','MuonWW',1) analysisConfigurator.addSelector('diTausMuonPtEta','PATMuTauPairSelector','leg1.pt()>15&&abs(leg1.eta())<2.1','MuonPtEta',1) #analysisConfigurator.addSelector('diTausMuonIsolation','PATMuTauPairSelector','(leg1.chargedHadronIso()+max(0.0,leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0)))/leg1.pt()<0.1','MuonIsolation',1) analysisConfigurator.addSelector('diTausTauPtEta','PATMuTauPairSelector','leg2.pt()>20&&abs(leg2.eta())<2.3','TauPtEta',1) analysisConfigurator.addSelector('diTausDecayFound','PATMuTauPairSelector','leg2.tauID("decayModeFinding")>0','TauDecayFound',1) analysisConfigurator.addSelector('diTausVLooseTauIsolation','PATMuTauPairSelector','(leg2.tauID("byVLooseCombinedIsolationDeltaBetaCorr")>0)','TauVLooseIsoDB',1) #analysisConfigurator.addSelector('diTausLooseTauIsolation','PATMuTauPairSelector','(leg2.tauID("byLooseCombinedIsolationDeltaBetaCorr")>0)','TauLooseIsoDB',1) analysisConfigurator.addSelector('diTausTauElectronVeto','PATMuTauPairSelector','leg2.tauID("againstElectronLoose")','AgainstElectron',1) analysisConfigurator.addMuTauSVFitSA('muTausSVFit') analysisConfigurator.addSelector('diTausTauMuonVeto','PATMuTauPairSelector','leg2.tauID("againstMuonTight")','AgainstMuon',1) analysisConfigurator.addSelector('diTausWRej','PATMuTauPairSelector','mt1MET<40','WRejection',1)
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * ############################### Ele-Tau ################################### ETanalysisConfigurator = CutSequenceProducer(initialCounter = 'initialEventsET', pyModuleName = __name__, pyNameSpace = locals()) #ESTausID ETanalysisConfigurator.addSmearing('patOverloadedTaus','triggeredPatMuons','triggeredPatElectrons','cleanPatJets','patMVAMet','ET') #create dielectrons ETanalysisConfigurator.addDiCandidateModule('diElectrons','PATElePairProducer','smearedElectronsET','smearedElectronsET','smearedMETET','','smearedJetsET',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") ETanalysisConfigurator.addSelector('osDiElectrons','PATElePairSelector','abs(leg1.eta())<2.5&&abs(leg2.eta())<2.5&&abs(leg1.userFloat("ipDXY"))<0.045&&abs(leg2.userFloat("ipDXY"))<0.045&&abs(leg1.userFloat("dz"))<0.2&&abs(leg2.userFloat("dz"))<0.2&&leg1.pt()>15&&leg2.pt()>15&&charge==0&&leg2.userFloat("wp95V")>0&&leg1.userFloat("wp95V")>0&&(leg1.userIso(0)+max(leg1.userIso(1)+leg1.neutralHadronIso()-0.5*leg1.userIso(2),0.0))/leg1.pt()<0.3&&(leg2.userIso(0)+max(leg2.userIso(1)+leg2.neutralHadronIso()-0.5*leg2.userIso(2),0.0))/leg2.pt()<0.3','ZEEVEto',0,100) #Make DiTaus ETanalysisConfigurator.addDiCandidateModule('eleTaus','PATEleTauPairProducer','smearedElectronsET','smearedTausET','patMVAMet','smearedTausET','smearedJetsET',1,9999,text = 'AtLeastOneEleTau',leadingObjectsOnly = False,dR = 0.5,recoMode = "",genParticles='genDaughters') ETanalysisConfigurator.addSelector('eleTausEleID', 'PATEleTauPairSelector', '(abs(leg1.superCluster().eta())<0.8&&leg1.electronID("mvaNonTrigV0")>0.925)||(abs(leg1.superCluster().eta())<1.479&&leg1.electronID("mvaNonTrigV0")>0.975)||(leg1.electronID("mvaNonTrigV0")>0.985)', 'ElectronID',1) ETanalysisConfigurator.addSelector('eleTausEleConvRej','PATEleTauPairSelector','leg1.userInt("missingHits")==0&&!(leg1.userInt("HasMatchedConversion")>0)','electronConvRej',1) ETanalysisConfigurator.addSelector('eleTausElePtEta', 'PATEleTauPairSelector', 'leg1.pt()>20&&abs(leg1.eta())<2.1&&abs(leg1.userFloat("dz"))<0.2&&abs(leg1.userFloat("ipDXY"))<0.045','electronPtEta',1) ETanalysisConfigurator.addSelector('eleTausEleIsolationLoose','PATEleTauPairSelector','(leg1.userIso(0)+max(leg1.userIso(1)+leg1.neutralHadronIso()-0.5*leg1.userIso(2),0.0))/leg1.pt()<0.5','electronIsolationLoose',1) ETanalysisConfigurator.addSelector('eleTausTauPtEta',
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * llLeadingIso1='(leg1.pt()>20&&(leg1.chargedHadronIso()+max(leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0),0.0))/leg1.pt()<0.25)' llLeadingIso2='(leg2.pt()>10&&(leg2.chargedHadronIso()+max(leg2.photonIso()+leg2.neutralHadronIso()-0.5*leg2.userIso(0),0.0))/leg2.pt()<0.25)' llLeadingIso=llLeadingIso1+'&&'+llLeadingIso2 mumuLeadingID='leg1.isGlobalMuon()&&leg2.isGlobalMuon()&&leg1.isTrackerMuon()&&leg2.isTrackerMuon()' mumuLeading=mumuLeadingID+'&& mass>60 && mass<120 && abs(leg1.eta())<2.4 && abs(leg2.eta())<2.4' eeLeading='charge==0 && leg1.electronID("cicTight")&1==1 && leg2.electronID("cicTight")&1==1 && mass>60 && mass<120 && abs(leg1.eta())<2.5 && abs(leg2.eta())<2.5' EEanalysisConfigurator = CutSequenceProducer(initialCounter = 'initialEventsEE', pyModuleName = __name__, pyNameSpace = locals()) EEanalysisConfigurator.addSmearing('patOverloadedTaus','patMuonsForAnalysis','convRejElectrons','selectedPatJets','EE') EEanalysisConfigurator.addDiCandidateModule('EEdiElectrons','PATElePairProducer', 'smearedElectronsEE','smearedElectronsEE','smearedMETEE','smearedJetsEE',1,genParticles='genDaughters') EEanalysisConfigurator.addSorter('zEleEleCandidatesSorted','PATElePairSorter') EEanalysisConfigurator.addSelector('EEosDiElectrons','PATElePairSelector','leg1.gsfTrack().trackerExpectedHitsInner().numberOfHits()<2&&leg2.gsfTrack().trackerExpectedHitsInner().numberOfHits()<2&&(leg1.electronID("cicTight")==1||leg1.electronID("cicTight")==3||leg1.electronID("cicTight")==5||leg1.electronID("cicTight")==7||leg1.electronID("cicTight")==9||leg1.electronID("cicTight")==11||leg1.electronID("cicTight")==13||leg1.electronID("cicTight")==15)&&(leg2.electronID("cicTight")==1||leg2.electronID("cicTight")==3||leg2.electronID("cicTight")==5||leg2.electronID("cicTight")==7||leg2.electronID("cicTight")==9||leg2.electronID("cicTight")==11||leg2.electronID("cicTight")==13||leg2.electronID("cicTight")==15)&&charge==0&&abs(leg1.eta())<2.5&&abs(leg2.eta())<2.5&&mass>40 && leg1.userFloat("SIP3D")<4 && leg2.userFloat("SIP3D")<4','EEDiEleCreation',1) EEanalysisConfigurator.addSelector('EEeleIso','PATElePairSelector',llLeadingIso,'EELeadingZEleIso') EEanalysisConfigurator.addSelector('EEaboveThresh','PATElePairSelector','leg1.pt()>20 && leg2.pt()>10','EEAtLeastOneZZCandOverThresholds') zEleEleSelectionSequence =EEanalysisConfigurator.returnSequence() MManalysisConfigurator = CutSequenceProducer(initialCounter = 'initialEventsMM', pyModuleName = __name__, pyNameSpace = locals()) #Add smearing
import FWCore.ParameterSet.Config as cms # Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * ############################### Ele-Tau ################################### ETanalysisConfigurator = CutSequenceProducer( initialCounter="initialEventsET", pyModuleName=__name__, pyNameSpace=locals() ) ETanalysisConfigurator.addSmearing( "triggeredPatTaus", "triggeredPatMuons", "triggeredPatElectrons", "cleanPatJets", "patMVAMetEleTau", "ET" ) # create dielectrons ETanalysisConfigurator.addDiCandidateModule( "diElectrons", "PATElePairProducer", "smearedElectronsET", "smearedElectronsET", "smearedMETET", "smearedJetsET", 0, 9999, text="", leadingObjectsOnly=False, dR=0.15, recoMode="", )
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * tagAndProbeConfigurator = CutSequenceProducer(initialCounter='initialEvents', pyModuleName=__name__, pyNameSpace=locals()) ##Tag and probe electron+GSF track tagAndProbeConfigurator.addDiCandidateModule('tagAndProbeEleTracks', 'PATEleTrackPairProducer', 'convRejElectrons', 'gsfTrackCandidates', 'patMETs', 'selectedPatJets', 1, 9999, text='', leadingObjectsOnly=True, dR=0.15, recoMode="") tagAndProbeConfigurator.addSorter('eleTracksSorted', 'PATEleTrackPairSorter') tagAndProbeConfigurator.addSelector( 'selectedTagAndProbeEleTracks', 'PATEleTrackPairSelector', 'abs(leg2.eta())<2.1&&(!(abs(leg2.eta())>1.442&&abs(leg2.eta())<1.566))&&leg1.pt()>15&&charge==0&&leg2.pt()>5&&mass>15&&mass<120&&leg1.userFloat("WWID")>0&&(leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso)/leg1.pt()<0.1', 'tagAndProbeEleTracks', 0, 100) tagAndProbeSequenceEleTracks = tagAndProbeConfigurator.returnSequence() ##Tag and probe electron+SC
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfigurator = CutSequenceProducer(initialCounter='initialEvents', pyModuleName=__name__, pyNameSpace=locals()) DiMuonPreSel = 'leg1.isGlobalMuon && leg1.isTrackerMuon && leg2.isGlobalMuon && leg2.isTrackerMuon && leg1.pt()>20 && leg2.pt()>20' DiMuonPreSel2 = '(leg1.isolationR03().sumPt+leg1.isolationR03().emEt+leg1.isolationR03().hadEt)/leg1.pt()<0.15 ' DiMuonPreSel3 = '(leg2.isolationR03().sumPt+leg2.isolationR03().emEt+leg2.isolationR03().hadEt)/leg2.pt()<0.15 ' #Make Di Muons to VETO DY analysisConfigurator.addDiCandidateModule('diMuons', 'PATMuPairProducer', 'cleanPatMuons', 'cleanPatMuons', 'systematicsMET', 'cleanPatJets', 0, 9999, text='', leadingObjectsOnly=True, dR=0.15, recoMode="") analysisConfigurator.addSelector( 'diMuonsSel', 'PATMuPairSelector', DiMuonPreSel + '&&' + DiMuonPreSel2 + '&&' + DiMuonPreSel3, 'diMuonSel', 0, 999) analysisConfigurator.addSorter('diMuonsSorted', 'PATMuPairSorter')
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * tagAndProbeConfigurator = CutSequenceProducer( initialCounter='initialTagAndProbeEvents', pyModuleName=__name__, pyNameSpace=locals()) ##Tag and probe tagAndProbeConfigurator.addDiCandidateModule('tagAndProbeMuTracks', 'PATMuTrackPairProducer', 'patMuonsForAnalysis', 'trackCandidates', 'patMETs', 'selectedPatJets', 1, 9999, text='', leadingObjectsOnly=True, dR=0.15, recoMode="") tagAndProbeConfigurator.addSelector( 'selectedTagAndProbeMuTracks', 'PATMuTrackPairSelector', 'calibratedMET.pt()<20 && charge==0&&mass>50&&mass<120&&leg1.userFloat("isWWMuon")&&((leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso)/leg1.pt()<0.2)&&leg1.pt()>25&&leg2.pt()>5&&abs(leg2.eta())<2.4&&abs(leg1.eta())<2.1', 'tagAndProbePairs', 1, 100) tagAndProbeSequence = tagAndProbeConfigurator.returnSequence()
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * zEleEleAnalysisConfigurator = CutSequenceProducer(initialCounter = 'initialZEleEleEvents', pyModuleName = __name__, pyNameSpace = locals()) zEleEleAnalysisConfigurator.addDiCandidateModule('zEleEleCandidates','PATElePairProducer', 'convRejElectrons','convRejElectrons','patMETs','selectedPatJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") zEleEleAnalysisConfigurator.addSorter('zEleEleCandidatesSorted','PATElePairSorter') zEleEleAnalysisConfigurator.addSelector('zEleEleCandidatesID','PATElePairSelector','leg1.userFloat("WWID")>0&&leg2.userFloat("WWID")>0 &&leg1.pt()>15&&leg2.pt()>15','ZEleEleID') # zEleEleAnalysisConfigurator.addEleEleSVFit('zEleEleCandidatesSVFit') zEleEleAnalysisConfigurator.addSelector('zEleEleCandidatesIsol1','PATElePairSelector','leg1.dr03TkSumPt()/leg1.pt()<0.25','ZEleEleLeg1Iso') zEleEleAnalysisConfigurator.addSelector('zEleEleCandidatesIsol2','PATElePairSelector','leg1.dr03TkSumPt()/leg2.pt()<0.25','ZEleEleLeg2Iso') zEleEleAnalysisConfigurator.addSelector('zEleEleCandidatesOS','PATElePairSelector','charge==0','ZEleEleOS',0,100) #create the sequence zEleEleSelectionSequence=zEleEleAnalysisConfigurator.returnSequence()
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfigurator = CutSequenceProducer(initialCounter = 'initialEvents', pyModuleName = __name__, pyNameSpace = locals()) analysisConfigurator.addSmearing('patOverloadedTaus','patMuonsForAnalysis','convRejElectrons','patOverloadedJets','METInputTag') #create dielectrons analysisConfigurator.addDiCandidateModule('diElectrons','PATElePairProducer', 'smearedElectrons','smearedElectrons','smearedMET','smearedJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") analysisConfigurator.addSelector('osDiElectrons','PATElePairSelector','leg1.pt()>15&&leg2.pt()>15&&charge==0&&(leg1.userFloat("WWID")>0||leg1.userFloat("WWMVAID")>0)&&leg2.userFloat("wp95")>0&&(leg1.chargedHadronIso()+max(leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0),0.0))/leg1.pt()<0.25&&(leg2.chargedHadronIso()+max(leg2.photonIso()+leg2.neutralHadronIso()-0.5*leg2.userIso(0),0.0))/leg2.pt()<0.25','ZEEVEto',0,100) #Make DiTaus analysisConfigurator.addDiCandidateModule('eleTaus','PATEleTauPairProducer', 'smearedElectrons','smearedTaus','smearedMET','smearedJets',1,9999,text = 'AtLeastOneEleTau',leadingObjectsOnly = False,dR = 0.5,recoMode = "",genParticles='genDaughters') analysisConfigurator.addSelector('eleTausWW','PATEleTauPairSelector','leg1.userFloat("WWID")>0||leg1.userFloat("WWMVAID")>0','WWElectronID',1) analysisConfigurator.addSelector('eleTausElePtEta','PATEleTauPairSelector','leg1.pt()>20&&abs(leg1.eta())<2.1','electronPtEta',1) #analysisConfigurator.addSelector('eleTausEleIsolation','PATEleTauPairSelector','(leg1.chargedHadronIso()+max(leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.particleIso(),0.0))/leg1.pt()<0.1','electronIsolation',1) analysisConfigurator.addSelector('eleTausTauPtEta','PATEleTauPairSelector','leg2.tauID("decayModeFinding")&&leg2.pt()>20&&abs(leg2.eta())<2.3','TauDecayFound',1) analysisConfigurator.addSelector('eleTausVLooseIsolation','PATEleTauPairSelector','leg2.tauID("byVLooseCombinedIsolationDeltaBetaCorr")>0','TauLooseIso',1) #analysisConfigurator.addSelector('eleTausLooseIsolation','PATEleTauPairSelector','leg2.tauID("byLooseCombinedIsolationDeltaBetaCorr")>0','TauLooseIso',1) analysisConfigurator.addSelector('eleTausTauMuonVeto','PATEleTauPairSelector','leg2.tauID("againstMuonLoose")','AgainstMuon',1) analysisConfigurator.addSelector('eleTausTauElectronVeto','PATEleTauPairSelector','leg2.tauID("againstElectronMedium")','AgainstElectron',1) analysisConfigurator.addEleTauSVFitSA('eleTausNSVFit')
import FWCore.ParameterSet.Config as cms ###MU ENRICHED QCD##################################################################################################### from UWAnalysis.Configuration.tools.CutSequenceProducer import * zJetsConfigurator = CutSequenceProducer(initialCounter='initialZJetsEvents', pyModuleName=__name__, pyNameSpace=locals()) zJetsConfigurator.addDiCandidateModule('diMuonszJetsFR', 'PATMuPairProducer', 'patMuonsForAnalysis', 'patMuonsForAnalysis', 'patMETs', 'selectedPatJets', 1, 9999, text='', leadingObjectsOnly=False, dR=0.15, recoMode="") zJetsConfigurator.addSelector( 'osDiMuonsZJetsFR', 'PATMuPairSelector', 'charge==0&&leg1.isGlobalMuon&&leg2.isGlobalMuon&&((leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso)/leg1.pt()<0.2)&&((leg2.chargedHadronIso+leg2.photonIso+leg2.neutralHadronIso)/leg2.pt()<0.2)&&mass>35&&mass<120', '', 0, 100) zJetsConfigurator.addGeneric('zJetsForFakeRate', 'MuonPairJetFetcher') zJetsSequence = zJetsConfigurator.returnSequence()
import FWCore.ParameterSet.Config as cms ###MU ENRICHED QCD##################################################################################################### from UWAnalysis.Configuration.tools.CutSequenceProducer import * muEnrichedConfigurator = CutSequenceProducer(initialCounter = 'initialMuEnrichedEvents', pyModuleName = __name__, pyNameSpace = locals()) muEnrichedConfigurator.addDiCandidateModule('diMuonsMuEnrichedFR','PATMuPairProducer', 'patMuonsForAnalysis','patMuonsForAnalysis','patMETs','selectedPatJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") muEnrichedConfigurator.addSelector('osDiMuonsMuEnrichedFR','PATMuPairSelector','charge==0&&leg1.isGlobalMuon&&leg2.isGlobalMuon&&((leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso)/leg1.pt()<0.26)&&((leg2.chargedHadronIso+leg2.photonIso+leg2.neutralHadronIso)/leg2.pt()<0.3)','',0,0) #Make Muons+MET muEnrichedConfigurator.addCandidateMETModule('muEnrichedCands','PATMuonNuPairProducer','patMuonsForAnalysis','patMETs','selectedPatJets',0,9999,'') muEnrichedConfigurator.addSelector('muEnrichedSelectedCands','PATMuonNuPairSelector','lepton.pt()>15&&abs(lepton.eta())<2.1&&((lepton.chargedHadronIso+lepton.photonIso+lepton.neutralHadronIso)/lepton.pt()>0.5)&&(lepton.triggerObjectMatchesByPath("HLT_Mu9").size>0||(lepton.triggerObjectMatchesByPath("HLT_Mu11").size>0)||(lepton.triggerObjectMatchesByPath("HLT_Mu15_v1").size>0))&&mt<40.','',0,100) muEnrichedConfigurator.addGeneric('muEnrichedJetsForFakeRate','MuonNuPairJetFetcher') muEnrichedSequence = muEnrichedConfigurator.returnSequence()
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * tagAndProbeConfigurator = CutSequenceProducer(initialCounter = 'initialEvents', pyModuleName = __name__, pyNameSpace = locals()) ##Tag and probe electron+GSF track tagAndProbeConfigurator.addDiCandidateModule('tagAndProbeEleTracks','PATEleTrackPairProducer', 'convRejElectrons','gsfTrackCandidates','patMETs','selectedPatJets',1,9999,text = '',leadingObjectsOnly = True,dR = 0.15,recoMode = "") tagAndProbeConfigurator.addSorter('eleTracksSorted','PATEleTrackPairSorter') tagAndProbeConfigurator.addSelector('selectedTagAndProbeEleTracks','PATEleTrackPairSelector','abs(leg2.eta())<2.1&&(!(abs(leg2.eta())>1.442&&abs(leg2.eta())<1.566))&&leg1.pt()>15&&charge==0&&leg2.pt()>5&&mass>15&&mass<120&&leg1.userFloat("WWID")>0&&(leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso)/leg1.pt()<0.1','tagAndProbeEleTracks',0,100) tagAndProbeSequenceEleTracks =tagAndProbeConfigurator.returnSequence() ##Tag and probe electron+SC tagAndProbeConfigurator2 = CutSequenceProducer(initialCounter = 'initialTagAndProbeEvents2', pyModuleName = __name__, pyNameSpace = locals()) ##Tag and probe electron+SC tagAndProbeConfigurator2.addDiCandidateModule('tagAndProbeEleSCs','PATEleSCPairProducer', 'convRejElectrons','superClusterCands','patMETs','selectedPatJets',1,9999,text = '',leadingObjectsOnly = True,dR = 0.5,recoMode = "") tagAndProbeConfigurator.addSorter('eleSCsSorted','PATEleSCPairSorter') tagAndProbeConfigurator2.addSelector('selectedTagAndProbeEleSCs','PATEleSCPairSelector','calibratedMET.pt()<20 && abs(leg1.eta())<2.5&&abs(leg2.eta())<2.5&&leg1.pt()>20&&leg2.pt()>5&&mass>50&&mass<120&&leg1.userFloat("WWID")>0&&(leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso())/leg1.pt()<0.1','tagAndProbeEleSCs',0,100)
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * ######################__________________________________MMMT_____________________________________############################## MMMTanalysisConfigurator = CutSequenceProducer(initialCounter = 'initialEventsMMMT', pyModuleName = __name__, pyNameSpace = locals()) #nSVfitTrackService = cms.Service("NSVfitTrackService") #Add smearing MMMTanalysisConfigurator.addSmearing('patOverloadedTaus','patMuonsForAnalysis','convRejElectrons','selectedPatJets') MMMTanalysisConfigurator.addDiCandidateModule('MMMTdiMuons','PATMuPairProducer', 'smearedMuons','smearedMuons','smearedMET','smearedJets',1,genParticles='genDaughters') MMMTanalysisConfigurator.addSelector('MMMTosDiMuons','PATMuPairSelector','charge==0&&leg1.isGlobalMuon()&&leg2.isGlobalMuon()&& mass>40 && abs(leg1.eta())<2.4 && abs(leg2.eta())<2.4','MMMTDiMuonCreation',1) MMMTanalysisConfigurator.addDiCandidateModule('MMMTmuTau','PATMuTauPairProducer', 'smearedMuons','smearedTaus','smearedMET','smearedJets',1,9999,text = 'MMMTAtLeastOneMuTau',leadingObjectsOnly = False,dR = 0.3,recoMode = "",genParticles='genDaughters') MMMTanalysisConfigurator.addDiCandidateModule('MMMTzzCands','PATMuMuMuTauQuadProducer','MMMTosDiMuons','MMMTmuTau','smearedMET','smearedJets',1,9999,text='MMMTAtLeastOneZZ',leadingObjectsOnly = False,dR = 0.01,recoMode ="",genParticles='genDaughters') MMMTanalysisConfigurator.addCrossCleanerModule('MMMTzzCleanedCands','PATMuMuMuTauQuadCrossCleaner',1,9999,text='MMMTAtLeastOneZZCleanedCandidate',dR = 0.1) MMMTanalysisConfigurator.addSelector('MMMTzzMuID','PATMuMuMuTauQuadSelector','leg1.leg1.isGlobalMuon()&&leg1.leg1.isTrackerMuon()&&leg1.leg2.isTrackerMuon()&&leg1.leg2.isTrackerMuon()','MMMTLeadingZMuID') MMMTanalysisConfigurator.addSelector('MMMTzzMuIso','PATMuMuMuTauQuadSelector','(leg1.leg1.chargedHadronIso()+max(leg1.leg1.photonIso()+leg1.leg1.neutralHadronIso()-0.5*leg1.leg1.userIso(0),0.0))/leg1.leg1.pt()<0.25&&(leg1.leg2.chargedHadronIso()+max(leg1.leg2.photonIso()+leg1.leg2.neutralHadronIso()-0.5*leg1.leg2.userIso(0),0.0))/leg1.leg2.pt()<0.25','MMMTLeadingZMuIso') MMMTanalysisConfigurator.addSelector('MMMTzzMuID2','PATMuMuMuTauQuadSelector','leg2.leg1.isGlobalMuon()&&leg2.leg1.isTrackerMuon()','MMMTSecondZMuID') MMMTanalysisConfigurator.addSelector('MMMTzzTauID','PATMuMuMuTauQuadSelector','leg2.leg2.tauID("decayModeFinding")','MMMTTauDecayModeFinding') MMMTanalysisConfigurator.addSelector('MMMTzzTauDiscr','PATMuMuMuTauQuadSelector','leg2.leg2.tauID("againstElectronLoose")&&leg2.leg2.tauID("againstMuonTight")','MMMTTauLeptonDiscrimantor') MMMTanalysisConfigurator.addSelector('MMMTzzMuIso2','PATMuMuMuTauQuadSelector','(leg2.leg1.chargedHadronIso()+max(leg2.leg1.photonIso()+leg2.leg1.neutralHadronIso()-0.5*leg2.leg1.userIso(0),0.0))/leg2.leg1.pt()<0.15','MMMTSecondZMuIso') MMMTanalysisConfigurator.addSelector('MMMTzzTauIso','PATMuMuMuTauQuadSelector','leg2.leg2.tauID("byLooseCombinedIsolationDeltaBetaCorr")','MMMTTauLooseIsolation') MMMTanalysisConfigurator.addSorter('MMMTzzCleanedCandsSortedByZMass','PATMuMuMuTauQuadSorterByZMass') MMMTanalysisConfigurator.addSelector('MMMTzzCleanedCandsAboveThreshold','PATMuMuMuTauQuadSelector','leg1().leg1().pt()>20 && leg1().leg2().pt()>10 && leg2().leg1().pt()>10 &&leg2().leg2().pt()>20 && abs(leg2.leg1.eta())<2.4 && abs(leg2.leg2.eta())<2.3','MMMTAtLeastOneZZCandOverThresholds') MMMTanalysisConfigurator.addSelector('MMMTzzCleanedCandsMuTauQ','PATMuMuMuTauQuadSelector','leg2.charge()==0','MMMTMuTauCharge') MMMTanalysisConfigurator.addSelector('MMMTzzCleanedCandsMMMass','PATMuMuMuTauQuadSelector','leg1.mass()>60&&leg1.mass()<120','MMMTMMMass') MMMTanalysisConfigurator.addSorter('MMMTFinalSel','PATMuMuMuTauQuadSorterByZMass') MMMTanalysisConfigurator.addSelector('MMMTzzCleanedCandsMTMass','PATMuMuMuTauQuadSelector','leg2.mass()>30&&leg2.mass()<80','MMMTMTMass')
munuKIN='lepton.pt()>25 && abs(lepton.eta())<2.1&&!lepton.pfCandidateRef().isNull()' munuSel='mt>40&&lepton.userInt("WWID2011")==1&&abs(lepton.userFloat("ipDXY"))<0.02'#(lepton.isolationR03().sumPt+lepton.isolationR03().emEt+lepton.isolationR03().hadEt)/lepton.pt()<0.3&&met.pt()>30&mt>40&&lepton.userFloat("isWWMuon")==1' elenuKIN='lepton.pt()>30 && abs(lepton.eta())<2.5&&(abs(lepton.eta)<1.4442||abs(lepton.eta)>1.5666)' elenuSel='mt>40&&(lepton.isEB &&(lepton.sigmaIetaIeta<0.01)&&(-0.8<lepton.deltaPhiSuperClusterTrackAtVtx<0.8 ) && ( -0.007<lepton.deltaEtaSuperClusterTrackAtVtx<0.007) ) || (lepton.isEE &&(lepton.sigmaIetaIeta<0.03)&&(-0.7<lepton.deltaPhiSuperClusterTrackAtVtx<0.7 ) && ( -0.01<lepton.deltaEtaSuperClusterTrackAtVtx<0.01) )' DiElePreSel='leg1.pt>20&&leg2.pt>20' DiElePreSel2='(leg1.isEB &&(leg1.sigmaIetaIeta<0.01)&&(-0.8<leg1.deltaPhiSuperClusterTrackAtVtx<0.8 ) && ( -0.007<leg1.deltaEtaSuperClusterTrackAtVtx<0.007) ) || (leg1.isEE &&(leg1.sigmaIetaIeta<0.03)&&(-0.7<leg1.deltaPhiSuperClusterTrackAtVtx<0.7 ) && ( -0.01<leg1.deltaEtaSuperClusterTrackAtVtx<0.01) )' DiElePreSel2='(leg2.isEB &&(leg2.sigmaIetaIeta<0.01)&&(-0.8<leg2.deltaPhiSuperClusterTrackAtVtx<0.8 ) && ( -0.007<leg2.deltaEtaSuperClusterTrackAtVtx<0.007) ) || (leg2.isEE &&(leg2.sigmaIetaIeta<0.03)&&(-0.7<leg2.deltaPhiSuperClusterTrackAtVtx<0.7 ) && ( -0.01<leg2.deltaEtaSuperClusterTrackAtVtx<0.01) )' DiElePreSel3='(leg1.chargedHadronIso+leg1.photonIso()+leg1.neutralHadronIso())/leg1.pt()<0.3&&(leg2.chargedHadronIso+leg2.photonIso()+leg2.neutralHadronIso())/leg2.pt()<0.3' ######################__________________________________MNJ_____________________________________############################## MNJanalysisConfigurator = CutSequenceProducer(initialCounter = 'initialEventsMNJ', pyModuleName = __name__, pyNameSpace = locals()) MNJanalysisConfigurator.addSmearing('cleanPatTaus','cleanPatMuons','cleanPatElectrons','patJetsForAnalysis','systematicsMET','default','MNJ') #Make Muons+MET MNJanalysisConfigurator.addCandidateMETModule('wCands','PATMuonNuPairProducer','smearedMuonsMNJ','smearedMETMNJ','smearedJetsMNJ',1,9999,'AtLeastOneWCandidate',genParticles="genDaughters") #MNJanalysisConfigurator.addSelector('wCandsTight','PATMuonNuPairSelector',munuTight,'tightID',1) MNJanalysisConfigurator.addSelector('wCandsKIN','PATMuonNuPairSelector',munuKIN,'wCandsKIN',1) MNJanalysisConfigurator.addSelector('wCandsSel','PATMuonNuPairSelector',munuSel,'wCandsSel',1) MNJanalysisConfigurator.addDiCandidateModule('diMuons','PATMuPairProducer', 'smearedMuonsMNJ','cleanPatMuons','smearedMETMNJ','smearedJetsMNJ',0,9999,text = '',dR=0.5,recoMode = "") MNJanalysisConfigurator.addSelector('diMuonsSel','PATMuPairSelector',DiMuonPreSel+'&&'+DiMuonPreSel2+'&&'+DiMuonPreSel3,'diMuonSel',0,0) MNJanalysisConfigurator.addSorter('diMuonsSorted','PATMuPairSorter')
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * ############################### Ele-Tau ################################### ETanalysisConfigurator = CutSequenceProducer(initialCounter='initialEventsET', pyModuleName=__name__, pyNameSpace=locals()) #ESTausID ETanalysisConfigurator.addSmearing('patOverloadedTaus', 'triggeredPatMuons', 'triggeredPatElectrons', 'cleanPatJets', 'patMVAMet', 'ET') #create dielectrons ETanalysisConfigurator.addDiCandidateModule('diElectrons', 'PATElePairProducer', 'smearedElectronsET', 'smearedElectronsET', 'smearedMETET', '', 'smearedJetsET', 0, 9999, text='', leadingObjectsOnly=False, dR=0.15, recoMode="") ETanalysisConfigurator.addSelector( 'osDiElectrons', 'PATElePairSelector',
elenuSelB = "(lepton.chargedHadronIso+max(lepton.photonIso()+lepton.neutralHadronIso()-0.5*lepton.userIso(0),0.0))/lepton.pt()<0.15" elenuSel = elenuSelA + "&&" + elenuSelB DiElePreSel = "leg1.pt>20&&leg2.pt>20" DiElePreSel2 = "(leg1.isEB &&(leg1.sigmaIetaIeta<0.01)&&(-0.8<leg1.deltaPhiSuperClusterTrackAtVtx<0.8 ) && ( -0.007<leg1.deltaEtaSuperClusterTrackAtVtx<0.007) ) || (leg1.isEE &&(leg1.sigmaIetaIeta<0.03)&&(-0.7<leg1.deltaPhiSuperClusterTrackAtVtx<0.7 ) && ( -0.01<leg1.deltaEtaSuperClusterTrackAtVtx<0.01) )" DiElePreSel2 = "(leg2.isEB &&(leg2.sigmaIetaIeta<0.01)&&(-0.8<leg2.deltaPhiSuperClusterTrackAtVtx<0.8 ) && ( -0.007<leg2.deltaEtaSuperClusterTrackAtVtx<0.007) ) || (leg2.isEE &&(leg2.sigmaIetaIeta<0.03)&&(-0.7<leg2.deltaPhiSuperClusterTrackAtVtx<0.7 ) && ( -0.01<leg2.deltaEtaSuperClusterTrackAtVtx<0.01) )" DiElePreSel3 = "(leg1.chargedHadronIso+leg1.photonIso()+leg1.neutralHadronIso())/leg1.pt()<0.3&&(leg2.chargedHadronIso+leg2.photonIso()+leg2.neutralHadronIso())/leg2.pt()<0.3" jetKIN = "leg1.pt>20 && leg2.pt> 20 && abs(leg1.eta)<5 && abs(leg2.eta)<5" ######################__________________________________MNBB_____________________________________############################## MNBBanalysisConfigurator = CutSequenceProducer( initialCounter="initialEventsMNBB", pyModuleName=__name__, pyNameSpace=locals() ) # Make Di Muons to VETO DY MNBBanalysisConfigurator.addDiCandidateModule( "diMuons", "PATMuPairProducer", "cleanPatMuons", "cleanPatMuons", "systematicsMET", "patJetsForAnalysis", 0, 9999, text="", dR=0.5,
#tagAndProbeConfigurator2 = CutSequenceProducer(initialCounter = 'initialTagAndProbeEvents2', # pyModuleName = __name__, # pyNameSpace = locals()) ##Tag and probe electron+SC #tagAndProbeConfigurator2.addDiCandidateModule('tagAndProbeEleSCs','PATEleSCPairProducer', 'triggeredPatElectrons','superClusterCands','systematicsMET','cleanPatJets',1,9999,text = '',leadingObjectsOnly = True,dR = 0.5,recoMode = "") #tagAndProbeConfigurator2.addSorter('eleSCsSorted','PATEleSCPairSorter') #tagAndProbeConfigurator2.addSelector('selectedTagAndProbeEleSCs','PATEleSCPairSelector','calibratedMET.pt()<20 && abs(leg1.eta())<2.5&&abs(leg2.eta())<2.5&&leg1.pt()>20&&leg2.pt()>5&&mass>50&&mass<120&&leg1.userFloat("WWID")>0&&(leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso())/leg1.pt()<0.1','tagAndProbeEleSCs',0,100) #tagAndProbeSequenceEleSCs =tagAndProbeConfigurator2.returnSequence() #Tag and probe electron+electron tagAndProbeConfigurator3 = CutSequenceProducer(initialCounter = 'initialTagAndProbeEvents3', pyModuleName = __name__, pyNameSpace = locals()) tagAndProbeConfigurator3.addDiCandidateModule('tagAndProbeDiElectrons','PATElePairProducer', 'triggeredPatElectrons','triggeredPatElectrons','systematicsMET','cleanPatJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") tagAndProbeConfigurator3.addSorter('dielectronsSortedByZMass','PATElePairSorterByZMass') tagAndProbeConfigurator3.addSelector('selectedTagAndProbeDiElectrons','PATElePairSelector','calibratedMET.pt()<20&&leg1.pt()>20&&leg2.pt()>5&&charge==0&&(leg1.userIso(0)+max(0.0, leg1.userIso(1)+leg1.neutralHadronIso()-0.5*leg1.userIso(2)))/leg1.pt()<0.10&&leg1.userFloat("WWID")>0&&abs(leg1.eta())<2.5','EEss',0,100) tagAndProbeSequenceDiElectrons =tagAndProbeConfigurator3.returnSequence() # tagAndProbeConfigurator4 = CutSequenceProducer(initialCounter = 'initialTagAndProbeEvents4', # pyModuleName = __name__, # pyNameSpace = locals()) # # ##Tag and probe electron+Tau # tagAndProbeConfigurator4.addDiCandidateModule('tagAndProbeEleTaus','PATEleTauPairProducer', 'triggeredPatElectrons','triggeredPatTaus','systematicsMET','cleanPatJets',1,9999,text = '',leadingObjectsOnly = True,dR = 0.15,recoMode = "") # tagAndProbeConfigurator4.addSelector('selectedTagAndProbeEleTaus','PATEleTauPairSelector','abs(leg2.eta())<2.1&&(!(abs(leg2.eta())>1.442&&abs(leg2.eta())<1.566))&&leg1.pt()>15&&charge==0&&leg2.pt()>5&&mass>15&&mass<120&&leg1.userFloat("WWID")>0&&(leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso)/leg1.pt()<0.1&&(leg2.userFloat("hltOverlapFilterIsoEle15IsoPFTau20")+leg2.userFloat("hltOverlapFilterIsoEle15IsoPFTau15")+leg2.userFloat("hltOverlapFilterIsoEle15TightIsoPFTau20")+leg2.userFloat("hltOverlapFilterIsoEle18MediumIsoPFTau20")+leg2.userFloat("hltOverlapFilterIsoEle20MediumIsoPFTau20"))>0.5','tagAndProbeEleTracks',0,100) #
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * tagAndProbeConfigurator = CutSequenceProducer(initialCounter = 'initialTagAndProbeEvents', pyModuleName = __name__, pyNameSpace = locals()) ##Tag and probe tagAndProbeConfigurator.addDiCandidateModule('tagAndProbeMuTracks','PATMuTrackPairProducer', 'patMuonsForAnalysis','trackCandidates','patMETs','selectedPatJets',1,9999,text = '',leadingObjectsOnly = True,dR = 0.15,recoMode = "") tagAndProbeConfigurator.addSelector('selectedTagAndProbeMuTracks','PATMuTrackPairSelector','calibratedMET.pt()<20 && charge==0&&mass>50&&mass<120&&leg1.userFloat("isWWMuon")&&((leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso)/leg1.pt()<0.2)&&leg1.pt()>25&&leg2.pt()>5&&abs(leg2.eta())<2.4&&abs(leg1.eta())<2.1','tagAndProbePairs',1,100) tagAndProbeSequence =tagAndProbeConfigurator.returnSequence()
munuKIN='lepton.pt()>25 && abs(lepton.eta())<2.1' munuSel='lepton.userFloat("isWWMuon")==1'#(lepton.isolationR03().sumPt+lepton.isolationR03().emEt+lepton.isolationR03().hadEt)/lepton.pt()<0.3&&met.pt()>30&mt>40&&lepton.userFloat("isWWMuon")==1' elenuKIN='lepton.pt()>30 && abs(lepton.eta())<2.5&&(abs(lepton.eta)<1.4442||abs(lepton.eta)>1.5666)' elenuSel='(lepton.isEB &&(lepton.sigmaIetaIeta<0.01)&&(-0.8<lepton.deltaPhiSuperClusterTrackAtVtx<0.8 ) && ( -0.007<lepton.deltaEtaSuperClusterTrackAtVtx<0.007) ) || (lepton.isEE &&(lepton.sigmaIetaIeta<0.03)&&(-0.7<lepton.deltaPhiSuperClusterTrackAtVtx<0.7 ) && ( -0.01<lepton.deltaEtaSuperClusterTrackAtVtx<0.01) )' DiElePreSel='( (leg1.pt()>20 && leg2.pt()>10) || (leg1.pt()>10 && leg2.pt()>20))' DiElePreSel2='(leg1.isEB &&(leg1.sigmaIetaIeta<0.01)&&(-0.8<leg1.deltaPhiSuperClusterTrackAtVtx<0.8 ) && ( -0.007<leg1.deltaEtaSuperClusterTrackAtVtx<0.007) ) || (leg1.isEE &&(leg1.sigmaIetaIeta<0.03)&&(-0.7<leg1.deltaPhiSuperClusterTrackAtVtx<0.7 ) && ( -0.01<leg1.deltaEtaSuperClusterTrackAtVtx<0.01) )' DiElePreSel2='(leg2.isEB &&(leg2.sigmaIetaIeta<0.01)&&(-0.8<leg2.deltaPhiSuperClusterTrackAtVtx<0.8 ) && ( -0.007<leg2.deltaEtaSuperClusterTrackAtVtx<0.007) ) || (leg2.isEE &&(leg2.sigmaIetaIeta<0.03)&&(-0.7<leg2.deltaPhiSuperClusterTrackAtVtx<0.7 ) && ( -0.01<leg2.deltaEtaSuperClusterTrackAtVtx<0.01) )' DiElePreSel3='(leg1.chargedHadronIso+leg1.photonIso()+leg1.neutralHadronIso())/leg1.pt()<0.3&&(leg2.chargedHadronIso+leg2.photonIso()+leg2.neutralHadronIso())/leg2.pt()<0.3' ######################__________________________________MNJ_____________________________________############################## MNJanalysisConfigurator = CutSequenceProducer(initialCounter = 'initialEventsMNJ', pyModuleName = __name__, pyNameSpace = locals()) #Make Di Muons to VETO DY #MNJanalysisConfigurator.addDiCandidateModule('diMuons','PATMuPairProducer', 'patMuonsForAnalysis','patMuonsForAnalysis','patMETs','patJetsForAnalysis',0,9999,text = '',dR=0.5,recoMode = "") #MNJanalysisConfigurator.addSelector('diMuonsSel','PATMuPairSelector',DiMuonPreSel+'&&'+DiMuonPreSel2+'&&'+DiMuonPreSel3,'diMuonSel',0,999) #MNJanalysisConfigurator.addSorter('diMuonsSorted','PATMuPairSorter') #Make Muons+MET MNJanalysisConfigurator.addCandidateMETModule('wCands','PATMuonNuPairProducer','patMuonsForAnalysis','patMETs','patJetsForAnalysis',1,9999,'AtLeastOneWCandidate',genParticles="genDaughters") #MNJanalysisConfigurator.addSelector('wCandsTight','PATMuonNuPairSelector',munuTight,'tightID',1) MNJanalysisConfigurator.addSelector('wCandsKIN','PATMuonNuPairSelector',munuKIN,'wCandsKIN',1) MNJanalysisConfigurator.addSelector('wCandsSel','PATMuonNuPairSelector',munuSel,'wCandsSel',1)
import FWCore.ParameterSet.Config as cms ###MU ENRICHED QCD##################################################################################################### from UWAnalysis.Configuration.tools.CutSequenceProducer import * wJetsConfigurator = CutSequenceProducer(initialCounter = 'initialWJetsEvents', pyModuleName = __name__, pyNameSpace = locals()) wJetsConfigurator.addDiCandidateModule('diMuonswJetsFR','PATMuPairProducer', 'patMuonsForAnalysis','patMuonsForAnalysis','patMETs','selectedPatJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") wJetsConfigurator.addSelector('osDiMuonswJetsFR','PATMuPairSelector','charge==0&&leg1.isGlobalMuon&&leg2.isGlobalMuon&&((leg1.chargedHadronIso+leg1.photonIso+leg1.neutralHadronIso)/leg1.pt()<0.26)&&((leg2.chargedHadronIso+leg2.photonIso+leg2.neutralHadronIso)/leg2.pt()<0.3)','',0,0) #Make Muons+MET wJetsConfigurator.addCandidateMETModule('wJetsCands','PATMuonNuPairProducer','patMuonsForAnalysis','patMETs','selectedPatJets',0,9999,'') wJetsConfigurator.addSelector('wJetsSelectedCands','PATMuonNuPairSelector','lepton.pt()>15&&abs(lepton.eta())<2.1&&((lepton.chargedHadronIso+lepton.photonIso+lepton.neutralHadronIso)/lepton.pt()<0.2)&&(lepton.triggerObjectMatchesByPath("HLT_Mu9").size>0||(lepton.triggerObjectMatchesByPath("HLT_Mu11").size>0)||(lepton.triggerObjectMatchesByPath("HLT_Mu11").size>0))&&mt>45.','',0,100) wJetsConfigurator.addGeneric('wJetsForFakeRate','MuonNuPairJetFetcher') wJetsSequence = wJetsConfigurator.returnSequence()
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfiguratorEMu = CutSequenceProducer(initialCounter = 'initialEvents', pyModuleName = __name__, pyNameSpace = locals()) analysisConfiguratorEMu.addSmearing('patMuVetoTaus','patMuonsForAnalysis','convRejElectrons','patOverloadedJets','METInputTag') #MakeDileptonPairs analysisConfiguratorEMu.addDiCandidateModule('diMuons','PATMuPairProducer', 'smearedMuons','smearedMuons','smearedMET','smearedJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") analysisConfiguratorEMu.addSelector('osDiMuons','PATMuPairSelector','charge==0&&leg1.isGlobalMuon&&leg2.isGlobalMuon&&leg1.pt()>15&&leg2.pt()>15&&(leg1.chargedHadronIso()+max(leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0),0.0))/leg1.pt()<0.2&&(leg2.chargedHadronIso()+max(0.0,leg2.photonIso+leg2.neutralHadronIso()-0.5*leg2.particleIso()))/leg2.pt()<0.2','DiMuonCreation',0,100) analysisConfiguratorEMu.addSorter('diMuonsSorted','PATMuPairSorter') analysisConfiguratorEMu.addDiCandidateModule('diElectrons','PATElePairProducer', 'smearedElectrons','smearedElectrons','smearedMET','smearedJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") analysisConfiguratorEMu.addSelector('osDiElectrons','PATElePairSelector','leg1.pt()>15&&leg2.pt()>15&&charge==0&&leg1.userFloat("WWID")>0&&leg2.userFloat("wp95")>0&&(leg1.chargedHadronIso()+max(leg1.photonIso()+leg1.neutralHadronIso()-leg1.userIso(0),0.0))/leg1.pt()<0.3&&(leg2.chargedHadronIso()+max(leg2.photonIso()+leg2.neutralHadronIso()-leg2.userIso(0),0.0))/leg2.pt()<0.3','ZEEVEto',0,100) #Make muon.electron pairs analysisConfiguratorEMu.addDiCandidateModule('eleMuons','PATEleMuPairProducer', 'smearedElectrons','smearedMuons','smearedMET','smearedJets',1,9999,text = 'AtLeastOneEleMu',leadingObjectsOnly = False,dR = 0.5,recoMode = "",genParticles='genDaughters') analysisConfiguratorEMu.addSelector('eleMuonsElePtEta','PATEleMuPairSelector','leg1.pt()>10&&abs(leg1.eta())<2.5','electronPtEta',1) analysisConfiguratorEMu.addSelector('eleMuonsMuPtEta','PATEleMuPairSelector','leg2.pt()>10&&abs(leg2.eta())<2.1','muonPtEta',1) analysisConfiguratorEMu.addSelector('eleMuonsElectronWW','PATEleMuPairSelector','leg1.userFloat("WWID")>0||leg1.userFloat("WWMVAID")>0','WWElectron',1) analysisConfiguratorEMu.addSelector('eleMuonsMuonWW','PATEleMuPairSelector','leg2.userFloat("isWWMuon")>0','MuonWW',1) #analysisConfiguratorEMu.addEleMuSVFitSA('eleMuonsNSVFit') analysisConfiguratorEMu.addSorter('eleMuonsSorted','PATEleMuPairSorter')
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfigurator = CutSequenceProducer(initialCounter = 'initialEvents', pyModuleName = __name__, pyNameSpace = locals()) #Add smearing analysisConfigurator.addSmearing('patOverloadedTaus','patMuonsForAnalysis','convRejElectrons','patOverloadedJets','METInputTag') #Create di muon pairs for veto purposes analysisConfigurator.addDiCandidateModule('diMuons','PATMuPairProducer', 'smearedMuons','smearedMuons','smearedMET','smearedJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") analysisConfigurator.addSelector('osDiMuons','PATMuPairSelector','charge==0&&leg1.isGlobalMuon&&leg2.isGlobalMuon&&leg1.pt()>15&&leg2.pt()>15&&(leg1.chargedHadronIso()+max(0.0,leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0)))/leg1.pt()<0.2&&(leg2.chargedHadronIso()+max(0.0,leg2.photonIso+leg2.neutralHadronIso()-0.5*leg2.userIso(0)))/leg2.pt()<0.2','DiMuonCreation',0,0) analysisConfigurator.addSorter('diMuonsSorted','PATMuPairSorter') #Make DiTaus analysisConfigurator.addDiCandidateModule('muJets','PATMuJetPairProducer','smearedMuons','smearedJets','smearedMET','smearedJets',1,9999,text='AtLeastOneDiTau',leadingObjectsOnly = False,dR = 0.5,recoMode ="",genParticles='genDaughters') analysisConfigurator.addSelector('muJetsMuonID','PATMuJetPairSelector','leg1.userFloat("isWWMuon")','MuonWW',1) analysisConfigurator.addSelector('muJetsMuonPtEta','PATMuJetPairSelector','leg1.pt()>15&&abs(leg1.eta())<2.1','MuonPtEta',1) analysisConfigurator.addSelector('muJetsMuonIsolation','PATMuJetPairSelector','(leg1.chargedHadronIso()+max(0.0,leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0)))/leg1.pt()<0.15','MuonIsolation',1) analysisConfigurator.addSelector('muJetsTauPtEta','PATMuJetPairSelector','leg2.pt()>20&&abs(leg2.eta())<2.3','TauPtEta',1) #create the sequence selectionSequence =analysisConfigurator.returnSequence()
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfigurator = CutSequenceProducer(initialCounter = 'initialEvents', pyModuleName = __name__, pyNameSpace = locals()) #Make Di Muons to VETO DY analysisConfigurator.addDiCandidateModule('diMuons','PATMuPairProducer', 'patMuonsForAnalysis','patMuonsForAnalysis','patMETs','selectedPatJets',0,9999,text = '',leadingObjectsOnly = True,dR = 0.15,recoMode = "") analysisConfigurator.addSorter('diMuonsSorted','PATMuPairSorter') #Make Muons+MET analysisConfigurator.addCandidateMETModule('wCands','PATMuonNuPairProducer','patMuonsForAnalysis','patMETs','selectedPatJets',1,9999,'AtLeastOneWCandidate') analysisConfigurator.addSelector('wCandsGoodMuon','PATMuonNuPairSelector','lepton.pt()>10&&abs(lepton.eta())<2.4','OneLeptonInAcceptance',1) #analysisConfigurator.addSorter('diTausSorted','PATMuTauPairSorter') #make Gen Ws analysisConfigurator.addCandidateMETModule('wGenCands','PATCandNuPairProducer','genMuons','genNeutrinos','selectedPatJets',0,9999,'') selectionSequence =analysisConfigurator.returnSequence()
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfigurator = CutSequenceProducer(initialCounter='initialEvents', pyModuleName=__name__, pyNameSpace=locals()) #Add smearing analysisConfigurator.addSmearing('patOverloadedTaus', 'patMuonsForAnalysis', 'convRejElectrons', 'patOverloadedJets', 'METInputTag') #Create di muon pairs for veto purposes analysisConfigurator.addDiCandidateModule('diMuons', 'PATMuPairProducer', 'smearedMuons', 'smearedMuons', 'smearedMET', 'smearedJets', 0, 9999, text='', leadingObjectsOnly=False, dR=0.15, recoMode="") analysisConfigurator.addSelector( 'osDiMuons', 'PATMuPairSelector', 'charge==0&&leg1.isGlobalMuon&&leg2.isGlobalMuon&&leg1.pt()>15&&leg2.pt()>15&&(leg1.chargedHadronIso()+max(0.0,leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0)))/leg1.pt()<0.2&&(leg2.chargedHadronIso()+max(0.0,leg2.photonIso+leg2.neutralHadronIso()-0.5*leg2.userIso(0)))/leg2.pt()<0.2', 'DiMuonCreation', 0, 0)
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfiguratorEMu = CutSequenceProducer(initialCounter='initialEvents', pyModuleName=__name__, pyNameSpace=locals()) analysisConfiguratorEMu.addSmearing('patMuVetoTaus', 'patMuonsForAnalysis', 'convRejElectrons', 'patOverloadedJets', 'METInputTag') #MakeDileptonPairs analysisConfiguratorEMu.addDiCandidateModule('diMuons', 'PATMuPairProducer', 'smearedMuons', 'smearedMuons', 'smearedMET', 'smearedJets', 0, 9999, text='', leadingObjectsOnly=False, dR=0.15, recoMode="") analysisConfiguratorEMu.addSelector( 'osDiMuons', 'PATMuPairSelector', 'charge==0&&leg1.isGlobalMuon&&leg2.isGlobalMuon&&leg1.pt()>15&&leg2.pt()>15&&(leg1.chargedHadronIso()+max(leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0),0.0))/leg1.pt()<0.2&&(leg2.chargedHadronIso()+max(0.0,leg2.photonIso+leg2.neutralHadronIso()-0.5*leg2.particleIso()))/leg2.pt()<0.2', 'DiMuonCreation', 0, 100) analysisConfiguratorEMu.addSorter('diMuonsSorted', 'PATMuPairSorter')
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * analysisConfigurator = CutSequenceProducer(initialCounter = 'initialEvents', pyModuleName = __name__, pyNameSpace = locals()) nSVfitTrackService = cms.Service("NSVfitTrackService") analysisConfigurator.addSmearing('patOverloadedTaus','patMuonsForAnalysis','convRejElectrons','patOverloadedJets') #create dielectrons analysisConfigurator.addDiCandidateModule('diElectrons','PATElePairProducer', 'smearedElectrons','smearedElectrons','smearedMET','smearedJets',0,9999,text = '',leadingObjectsOnly = False,dR = 0.15,recoMode = "") analysisConfigurator.addSelector('osDiElectrons','PATElePairSelector','leg1.pt()>15&&leg2.pt()>15&&charge==0&&(leg1.userFloat("WWID")>0||leg1.userFloat("WWMVAID")>0)&&leg2.userFloat("wp95")>0&&(leg1.chargedHadronIso()+max(leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.userIso(0),0.0))/leg1.pt()<0.25&&(leg2.chargedHadronIso()+max(leg2.photonIso()+leg2.neutralHadronIso()-0.5*leg2.userIso(0),0.0))/leg2.pt()<0.25','ZEEVEto',0,100) #Make DiTaus analysisConfigurator.addDiCandidateModule('eleTaus','PATEleTauPairProducer', 'smearedElectrons','smearedTaus','smearedMET','smearedJets',1,9999,text = 'AtLeastOneEleTau',leadingObjectsOnly = False,dR = 0.5,recoMode = "",genParticles='genDaughters') analysisConfigurator.addSelector('eleTausWW','PATEleTauPairSelector','leg1.userFloat("WWID")>0||leg1.userFloat("WWMVAID")>0','WWElectronID',1) analysisConfigurator.addSelector('eleTausElePtEta','PATEleTauPairSelector','leg1.pt()>20&&abs(leg1.eta())<2.1','electronPtEta',1) #analysisConfigurator.addSelector('eleTausEleIsolation','PATEleTauPairSelector','(leg1.chargedHadronIso()+max(leg1.photonIso()+leg1.neutralHadronIso()-0.5*leg1.particleIso(),0.0))/leg1.pt()<0.1','electronIsolation',1) analysisConfigurator.addSelector('eleTausTauPtEta','PATEleTauPairSelector','leg2.tauID("decayModeFinding")&&leg2.pt()>20&&abs(leg2.eta())<2.3','TauDecayFound',1) analysisConfigurator.addSelector('eleTausVLooseIsolation','PATEleTauPairSelector','leg2.tauID("byVLooseCombinedIsolationDeltaBetaCorr")>0','TauLooseIso',1) #analysisConfigurator.addSelector('eleTausLooseIsolation','PATEleTauPairSelector','leg2.tauID("byLooseCombinedIsolationDeltaBetaCorr")>0','TauLooseIso',1) analysisConfigurator.addSelector('eleTausTauMuonVeto','PATEleTauPairSelector','leg2.tauID("againstMuonLoose")','AgainstMuon',1) analysisConfigurator.addSelector('eleTausTauElectronVeto','PATEleTauPairSelector','leg2.tauID("againstElectronMedium")','AgainstElectron',1)
import FWCore.ParameterSet.Config as cms #Import tool that creates the cut sequence from UWAnalysis.Configuration.tools.CutSequenceProducer import * zMuMuAnalysisConfigurator = CutSequenceProducer( initialCounter='initialZMuMuEvents', pyModuleName=__name__, pyNameSpace=locals()) zMuMuAnalysisConfigurator.addDiCandidateModule('zMuMuCandidates', 'PATMuPairProducer', 'patMuonsForAnalysis', 'patMuonsForAnalysis', 'patMETs', 'patOverloadedJets', 0, 9999, text='', leadingObjectsOnly=False, dR=0.15, recoMode="") zMuMuAnalysisConfigurator.addSorter('zMuMuCandidatesSorted', 'PATMuPairSorter') zMuMuAnalysisConfigurator.addSelector( 'zMuMuCandidatesID', 'PATMuPairSelector', 'leg1.userFloat("isWWMuon")&&leg2.userFloat("isWWMuon")&&leg1.pt()>15&&leg2.pt()>15&&abs(leg1.eta)<2.4&&abs(leg2.eta)<2.4', 'ZMuMuID') zMuMuAnalysisConfigurator.addSelector( 'zMuMuCandidatesIsol1', 'PATMuPairSelector', '(leg1.chargedHadronIso()+leg1.photonIso()+leg1.neutralHadronIso())/leg1.pt()<0.25', 'ZMuMuLeg1Iso') zMuMuAnalysisConfigurator.addSelector(