6 import FWCore.ParameterSet.Config
as cms
11 recoExoticaValidationHT = cms.EDProducer(
13 src = cms.InputTag(
"ak4PFJetsCHS"),
14 alias = cms.string(
'PFMHT'),
15 globalThreshold = cms.double(30.0),
16 calculateSignificance = cms.bool(
False),
17 jets = cms.InputTag(
"ak4PFJetsCHS")
20 recoExoticaValidationMETNoMu = cms.EDProducer(
22 usePt = cms.bool(
True ),
23 minPtJet = cms.double( 0.0 ),
24 jetsLabel = cms.InputTag(
"ak4PFJetsCHS" ),
25 minNJet = cms.int32( 0 ),
26 maxEtaJet = cms.double( 999.0 ),
27 excludePFMuons = cms.bool(
True ),
28 pfCandidatesLabel = cms.InputTag(
"particleFlow")
31 recoExoticaValidationMHTNoMu = cms.EDProducer(
33 usePt = cms.bool(
False ),
34 minPtJetHt = cms.double( 20.0 ),
35 maxEtaJetMht = cms.double( 5.2 ),
36 minNJetMht = cms.int32( 0 ),
37 jetsLabel = cms.InputTag(
"ak4PFJetsCHS" ),
38 maxEtaJetHt = cms.double( 5.2 ),
39 minPtJetMht = cms.double( 20.0 ),
40 minNJetHt = cms.int32( 0 ),
41 pfCandidatesLabel = cms.InputTag(
"particleFlow" ),
42 excludePFMuons = cms.bool(
True )
45 recoExoticaValidationCaloHT = cms.EDProducer(
47 src = cms.InputTag(
"ak4CaloJets"),
48 noHF = cms.bool(
True ),
49 alias = cms.string(
'CaloMHT'),
50 globalThreshold = cms.double(30.0),
51 calculateSignificance = cms.bool(
False ),
52 jets = cms.InputTag(
"ak4CaloJets")
55 ExoticaValidationProdSeq = cms.Sequence(
56 recoExoticaValidationHT + recoExoticaValidationMETNoMu + recoExoticaValidationMHTNoMu + recoExoticaValidationCaloHT
59 ExoticaValidationSequence = cms.Sequence(