1 import FWCore.ParameterSet.Config
as cms
9 from DQMServices.Core.DQMEDAnalyzer
import DQMEDAnalyzer
10 pfCandidateDQMAnalyzer =
DQMEDAnalyzer(
'DQMPFCandidateAnalyzer',
11 CandType=cms.untracked.string(
'PFCand'),
12 PFCandidateLabel = cms.InputTag(
'particleFlow',
''),
14 ptMinCand = cms.double(1.),
15 hcalMin =cms.double(1.),
17 CleaningParameters = cleaningParameters.clone(
18 bypassAllPVChecks = cms.bool(
False)
20 METDiagonisticsParameters = multPhiCorr_METDiagnostics,
22 FilterResultsLabelMiniAOD = cms.InputTag(
"TriggerResults::RECO"),
23 FilterResultsLabelMiniAOD2 = cms.InputTag(
"TriggerResults::reRECO"),
25 LSBegin = cms.int32(0),
26 LSEnd = cms.int32(-1),
29 HBHENoiseLabelMiniAOD = cms.string(
"Flag_HBHENoiseFilter"),
30 HBHENoiseFilterResultLabel = cms.InputTag(
"HBHENoiseFilterResultProducer",
"HBHENoiseFilterResult"),
31 HBHENoiseIsoFilterResultLabel = cms.InputTag(
"HBHENoiseFilterResultProducer",
"HBHEIsoNoiseFilterResult"),
33 verbose = cms.int32(0),
36 DetectorTypes = cms.untracked.string(
"ecal:hbhe:hf:pixel:sistrip:es:muon"),
38 Filter = cms.untracked.bool(
True)
42 packedCandidateDQMAnalyzerMiniAOD = pfCandidateDQMAnalyzer.clone(
43 CandType=cms.untracked.string(
'Packed'),
44 PFCandidateLabel = cms.InputTag(
'packedPFCandidates',
''),
45 METDiagonisticsParameters = multPhiCorr_METDiagnosticsMiniAOD,
46 CleaningParameters = cleaningParameters.clone(
47 vertexCollection = cms.InputTag(
"goodOfflinePrimaryVerticesDQMforMiniAOD" ),