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tbzanalysisTrigger_cfg.py
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tbzanalysisTrigger_cfg.py
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import FWCore.ParameterSet.Config as cms
process = cms.Process("DEMO")
process.load("FWCore.MessageService.MessageLogger_cfi")
process.load('RecoBTag/Configuration/RecoBTag_cff')
process.load("Configuration.StandardSequences.Services_cff")
process.load('Configuration.Geometry.GeometryIdeal_cff')
process.load('Configuration/StandardSequences/MagneticField_38T_cff')
#JetMETCorrections
#process.load("RecoMET.METFilters.metFilters_cff")
#process.load("JetMETCorrections.Type1MET.caloMETCorrections_cff")
#process.load("JetMETCorrections.Type1MET.correctionTermsCaloMet_cff")
#process.load("JetMETCorrections.Type1MET.correctionTermsPfMetType0PFCandidate_cff")
#process.load("JetMETCorrections.Type1MET.correctionTermsPfMetType0RecoTrack_cff")
#process.load("JetMETCorrections.Type1MET.correctionTermsPfMetShiftXY_cff")
#process.load("JetMETCorrections.Type1MET.correctedMet_cff")
#---------12-05-14-------
#process.load("CommonTools.ParticleFlow.pfIsolation_cfg")
#from CommonTools.ParticleFlow import pfIsolation_cfg
########################################
# Summer12 with CMSSW_5_3_X and GT START53_V7A
# DoubleMuon trigger
# HLT_Mu17_Mu8_v17 or HLT_Mu17_TkMu8_v10
# DoubleElectron trigger
# HLT_Ele17_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_v17
########################################
process.maxEvents = cms.untracked.PSet( input = cms.untracked.int32(-1) )
#process.source.duplicateCheckMode = cms.untracked.string('noDuplicateCheck')
process.source = cms.Source("PoolSource",
# replace 'myfile.root' with the source file you want to use
fileNames = cms.untracked.vstring(
#DATA2012A6
#DATA2012A7
#DATA2012A8
#DATA2012A9
#Data2101A
#SignalMC
#TbZSignalMC
#TbZSignalMC
#Data2012A
#ZZ_MC
#WW_2012MC8TeV
#TTbarMC8TeV
#ZMC_2012
#WZ_2012MC
#WJETS_MC
#SignalMC
'file:/afs/cern.ch/work/m/meshoaib/analysis/CMSSW_5_3_15/src/MyAnalysis/TbZ/A27919CE-486A-E311-8EDD-002590D0B0C8.root'
#2012_EE
# 'file:/afs/cern.ch/work/m/meshoaib/analysis/CMSSW_5_3_15/src/MyAnalysis/TbZ/58C97ECA-45DA-E111-B7B9-008CFA001B18.root'
#'file:/afs/cern.ch/work/m/meshoaib/analysis/CMSSW_5_3_15/src/MyAnalysis/TbZ/90985F3F-11DA-E111-8278-848F69FD294F.root'
#2012_DataSet
#'file:/afs/cern.ch/work/m/meshoaib/analysis/CMSSW_5_3_15/src/MyAnalysis/TbZ/F4FBA42A-A6CF-E111-BAAB-003048678A7E.root'
#DoublMu
#'file:/afs/cern.ch/work/m/meshoaib/analysis/CMSSW_5_3_15/src/MyAnalysis/TbZ/AC00CD43-B9D2-E111-97FD-001A92971B20.root'
#'file:/afs/cern.ch/work/m/meshoaib/analysis/CMSSW_5_3_15/src/MyAnalysis/TbZ/527B7FC8-19CF-E111-B116-00304867BEC0.root'
#MuEG
#'file:/afs/cern.ch/work/m/meshoaib/analysis/CMSSW_5_3_15/src/MyAnalysis/TbZ/0A47AE1F-BFD9-E111-8AB4-20CF3019DF0C.root'
#WZ_MC
#'file:/afs/cern.ch/work/m/meshoaib/analysis/CMSSW_5_3_15/src/MyAnalysis/TbZ/38576F66-61DD-E111-A13B-002481E0DC4E.root'
##'file:/afs/cern.ch/user/m/mwaqas/TBZ14/TBZMET/CMSSW_5_3_15/src/MyAnalysis/TbZ/001C0B68-536A-E311-B25F-002590D0B066.root'
#'file:/afs/cern.ch/work/m/meshoaib/analysis/CMSSW_5_3_15/src/MyAnalysis/TbZ/001C0B68-536A-E311-B25F-002590D0B066.root'
#'file:/afs/cern.ch/work/m/meshoaib/Analysis_TBZ/CMSSW_5_3_7/src/FirstAnalysis/TBZAnalysis/A00B400A-B1CF-E111-BCEF-0026189438C2.root'
#'file:/afs/cern.ch/work/m/meshoaib/Analysis_TBZ/CMSSW_5_3_7/src/FirstAnalysis/TBZAnalysis/441B933C-3846-E211-9928-00266CFFA768.root'
#'file:/ehep/ehep_data/datasets/DoubleMu_2012RunA/13Jul2012-v1/AC00CD43-B9D2-E111-97FD-001A92971B20.root'
#'file:/ehep/ehep_data/datasets/MC_2012/TT/0C8518DA-42F1-E111-BD2F-003048D3CB3C.root'
)
)
#process.source.duplicateCheckMode = cms.untracked.string('noDuplicateCheck')## To delete duplicate events, this included checkAllFilesOpened
process.source.duplicateCheckMode = cms.untracked.string('checkAllFilesOpened')
process.TFileService = cms.Service("TFileService",
fileName= cms.string("DoubleElectronB.root")
)
print "before"
process.myProducerLabel = cms.EDProducer('TbzMuonProducer',
muonTag = cms.InputTag("muons"),
muonPtCut = cms.double(20.) ,
muonEtaCut = cms.double(2.1)
)
process.myLoseMuons = cms.EDProducer('TbzLoseMuonProducer',
muonTag = cms.InputTag("muons"),
muonPtCut = cms.double(10.) ,
muonEtaCut = cms.double(2.1)
)
process.myJetProdLabel = cms.EDProducer('JetProducer',
JetsPtCut = cms.double(30.), #as suggested by jets contact person
JetsEtaCut = cms.double(3.0)
)
from RecoJets.JetProducers.kt4PFJets_cfi import *
process.kt6PFJetsForIsolation = kt4PFJets.clone( rParam = 0.6, doRhoFastjet = True )
process.kt6PFJetsForIsolation.Rho_EtaMax = cms.double(2.5)
# particle flow isolation
#
from CommonTools.ParticleFlow.Tools.pfIsolation import setupPFElectronIso, setupPFMuonIso
process.eleIsoSequence = setupPFElectronIso(process, 'gsfElectrons')
#print "NewIsolation"
#process.tightElecSequence = setupPFElectronIso(process, 'gsfElectrons')
process.pfiso = cms.Sequence(process.pfParticleSelectionSequence + process.eleIsoSequence )
#process.Newpfiso = cms.Sequence(process.tightElecSequence )
process.myElectronProdLabel = cms.EDProducer('ElectronProducer' ,
electronsInputTag = cms.InputTag("gsfElectrons") ,
muonsInputTag = cms.InputTag("myLoseMuons") ,
conversionsInputTag = cms.InputTag("allConversions") ,
beamSpotInputTag = cms.InputTag("offlineBeamSpot") ,
rhoIsoInputTag = cms.InputTag("kt6PFJetsForIsolation","rho"),
primaryVertexInputTag = cms.InputTag("offlinePrimaryVertices"),
isoValInputTags = cms.VInputTag(cms.InputTag('elPFIsoValueCharged03PFIdPFIso'),
cms.InputTag('elPFIsoValueGamma03PFIdPFIso'),
cms.InputTag('elPFIsoValueNeutral03PFIdPFIso')),
electronPtCut = cms.double(20.),
electronEtaCut = cms.double(2.1),
printDebug = cms.bool(True)
)
print "after"
print "NewIsolation"
#from CommonTools.ParticleFlow.Tools.pfIsolation import setupPFElectronIso, setupPFMuonIso
#process.tightElecSequence = setupPFElectronIso(process, 'gsfElectrons') # reco::GsfElectron
#print "Hello Iso"
process.tightElecSequence = setupPFElectronIso(process, 'myElectronProdLabel') #electronprod
print "Hello Iso"
process.Newpfiso = cms.Sequence(process.tightElecSequence )
print "After New ISolation"
#process.metFilters
process.topAna = cms.EDAnalyzer('TbZTopAnalyzer',
MutriggerSelection = cms.string('(HLT_Mu17_Mu8_* OR HLT_Mu17_TkMu8_*)'),
MuEGtriggerSelection = cms.string('(HLT_Mu17_Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_* OR HLT_Mu8_Ele17_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_*)'),
EtriggerSelection = cms.string('(HLT_Ele17_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_*)'),
triggerConfiguration = cms.PSet(
hltResults = cms.InputTag('TriggerResults','','HLT'),
l1tResults = cms.InputTag(''),
daqPartitions = cms.uint32(1),
l1tIgnoreMask = cms.bool( False ),
l1techIgnorePrescales = cms.bool( False ),
throw = cms.bool( True )
),
electronsInputTag = cms.InputTag("myElectronProdLabel") ,
#electronsInputTag = cms.InputTag("gsfElectrons") ,
muonsInputTag = cms.InputTag("myProducerLabel") ,
# muonsInputTag = cms.InputTag("muons") ,
jetsInputTag = cms.InputTag("ak5PFJets") ,#ak5PFJetsak5CaloJets
bjetInputTag = cms.InputTag("combinedSecondaryVertexBJetTags") ,
metInputTag = cms.InputTag("pfMet") ,
conversionsInputTag = cms.InputTag("allConversions") ,
beamSpotInputTag = cms.InputTag("offlineBeamSpot") ,
rhoIsoInputTag = cms.InputTag("kt6PFJetsForIsolation","rho") ,
#rhoIsoInputTagAna = cms.InputTag("kt6PFJetsForIsolation","rho") ,
primaryVertexInputTag = cms.InputTag("offlinePrimaryVertices") ,
NewisoValInputTags = cms.VInputTag(cms.InputTag('elPFIsoValueCharged03PFIdPFIso') ,
cms.InputTag('elPFIsoValueGamma03PFIdPFIso') ,
cms.InputTag('elPFIsoValueNeutral03PFIdPFIso')) ,
metPtCut = cms.double(25.) ,
vertexSrc = cms.InputTag("offlinePrimaryVertices") ,
BtagEtaCut = cms.double(2.4) ,
BtagPtCut = cms.double(25) ,
BtagDiscrCut = cms.double(0.679) ,
DPHiENue = cms.double(1.0) ,
DPHiMuNue = cms.double(1.0) ,
MaxZMass = cms.double(102.0) ,
MinZMAss = cms.double(78.0) ,
JetsPtCut = cms.double(20.) ,
ElecPtCut = cms.double(20.) ,
doTruthMatch = cms.bool(False) ,
electronPtCut = cms.double(20.) ,
electronEtaCut = cms.double(2.1) ,
#realdata = cms.bool(True) ,
realdata = cms.bool(False) ,
doPileup = cms.bool(False) ,
printDebug = cms.bool(True)
)
print "after 1"
process.dump=cms.EDAnalyzer('EventContentAnalyzer')
print "after 2"
process.p = cms.Path(process.myProducerLabel*process.myLoseMuons*process.myJetProdLabel*process.kt6PFJetsForIsolation*process.pfiso*process.myElectronProdLabel*process.Newpfiso*process.topAna)
print "after 3"