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Variables
CaloMET_cfi Namespace Reference

Variables

tuple met
 
tuple metHO = met.clone()
 
tuple metNoHF
 
tuple metNoHFHO = metNoHF.clone()
 
tuple metOpt
 
tuple metOptHO = metOpt.clone()
 
tuple metOptNoHF
 
tuple metOptNoHFHO = metOptNoHF.clone()
 

Variable Documentation

tuple CaloMET_cfi.met
Initial value:
1 = cms.EDProducer(
2  "METProducer",
3  METSignificance_params,
4  src = cms.InputTag("towerMaker"),
5  METType = cms.string('CaloMET'),
6  alias = cms.string('RawCaloMET'),
7  noHF = cms.bool(False),
8  globalThreshold = cms.double(0.3),
9  InputType = cms.string('CandidateCollection'),
10  calculateSignificance = cms.bool(True)
11  )

Definition at line 18 of file CaloMET_cfi.py.

Referenced by StKinFitter.addKinFitInfo(), EwkElecDQM.analyze(), EwkMuDQM.analyze(), PatTopSelectionAnalyzer.analyze(), EwkMuLumiMonitorDQM.analyze(), TtSemiLepJetCombMVATrainer.analyze(), METTester.analyze(), CaloTowersValidation.analyze(), WenuPlots.analyze(), QcdHighPtDQM.analyze(), GctTimingAnalyzer.analyze(), JetMETHLTOfflineSource.analyze(), METAnalyzer.analyze(), L1TGCT.analyze(), JetMETHLTOfflineSource.beginRun(), AlignmentTwoBodyDecayTrackSelector.checkMETMass(), DumpGctDigis.doEnergySums(), TopSingleLepton::MonitorEnsemble.fill(), TopDiLeptonOffline::MonitorEnsemble.fill(), JetMETHLTOfflineSource.fillMEforEffAllTrigger(), JetMETHLTOfflineSource.fillMEforEffWrtMBTrigger(), JetMETHLTOfflineSource.fillMEforEffWrtMuTrigger(), JetMETHLTOfflineSource.fillMEforMonAllTrigger(), JetMETHLTOfflineSource.fillMEforMonAllTriggerwrtMuonTrigger(), JetMETHLTOfflineSource.fillMEforTriggerNTfired(), HLTHcalNoiseFilter.filter(), PFMETFilter.filter(), HLTRFilter.filter(), WMuNuValidator.filter(), WMuNuSelector.filter(), aod2patFilterZee.filter(), ZeeCandidateFilter.filter(), WenuCandidateFilter.filter(), HepMCValidationHelper.genMet(), tnp::BaseTreeFiller.init(), QcdHighPtDQM.moverl(), QcdHighPtDQM.movers(), DistortedMETProducer.produce(), TtSemiLepJetCombMVAComputer.produce(), WMuNuProducer.produce(), JetEnergyShift.produce(), AlCaHcalNoiseProducer.produce(), L1ExtraParticleMapProd.produce(), cms::METProducer.produce(), METManager.recomputePFMET(), TtDilepEvtSolution.setMET(), METManager.setMET1(), METManager.setMET2(), TtSemiLepHypothesis.setNeutrino(), StEvtSolution.setNeutrino(), and TtSemiEvtSolution.setNeutrino().

tuple CaloMET_cfi.metHO = met.clone()

Definition at line 30 of file CaloMET_cfi.py.

Referenced by QcdHighPtDQM.analyze().

tuple CaloMET_cfi.metNoHF
Initial value:
1 = cms.EDProducer(
2  "METProducer",
3  METSignificance_params,
4  src = cms.InputTag("towerMaker"),
5  METType = cms.string('CaloMET'),
6  alias = cms.string('RawCaloMETNoHF'),
7  noHF = cms.bool(True),
8  globalThreshold = cms.double(0.3),
9  InputType = cms.string('CandidateCollection'),
10  calculateSignificance = cms.bool(True)
11 )

Definition at line 50 of file CaloMET_cfi.py.

Referenced by QcdHighPtDQM.analyze().

tuple CaloMET_cfi.metNoHFHO = metNoHF.clone()

Definition at line 62 of file CaloMET_cfi.py.

Referenced by QcdHighPtDQM.analyze().

tuple CaloMET_cfi.metOpt
Initial value:
1 = cms.EDProducer(
2  "METProducer",
3  METSignificance_params,
4  src = cms.InputTag("calotoweroptmaker"),
5  METType = cms.string('CaloMET'),
6  alias = cms.string('RawCaloMETOpt'),
7  noHF = cms.bool(False),
8  globalThreshold = cms.double(0.0),
9  InputType = cms.string('CandidateCollection'),
10  calculateSignificance = cms.bool(True)
11  )

Definition at line 34 of file CaloMET_cfi.py.

tuple CaloMET_cfi.metOptHO = metOpt.clone()

Definition at line 46 of file CaloMET_cfi.py.

tuple CaloMET_cfi.metOptNoHF
Initial value:
1 = cms.EDProducer(
2  "METProducer",
3  METSignificance_params,
4  src = cms.InputTag("calotoweroptmaker"),
5  METType = cms.string('CaloMET'),
6  alias = cms.string('RawCaloMETOptNoHF'),
7  noHF = cms.bool(True),
8  globalThreshold = cms.double(0.0),
9  InputType = cms.string('CandidateCollection'),
10  calculateSignificance = cms.bool(True)
11  )

Definition at line 66 of file CaloMET_cfi.py.

tuple CaloMET_cfi.metOptNoHFHO = metOptNoHF.clone()

Definition at line 77 of file CaloMET_cfi.py.

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