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gedGsfElectrons_cfi.py
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1 import FWCore.ParameterSet.Config as cms
2 
5 
6 gedGsfElectronsTmp = cms.EDProducer("GEDGsfElectronProducer",
7 
8  # input collections
9  previousGsfElectronsTag = cms.InputTag(""),
10  pflowGsfElectronsTag = cms.InputTag(""),
11  gsfElectronCoresTag = cms.InputTag("gedGsfElectronCores"),
12  barrelRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEB"),
13  endcapRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEE"),
14  hcalTowers = cms.InputTag("towerMaker"),
15  pfMvaTag = cms.InputTag(""),
16  seedsTag = cms.InputTag("ecalDrivenElectronSeeds"),
17  beamSpotTag = cms.InputTag("offlineBeamSpot"),
18  gsfPfRecTracksTag = cms.InputTag("pfTrackElec"),
19  egmPFCandidatesTag = cms.InputTag('particleFlowEGamma'),
20  vtxTag = cms.InputTag('offlinePrimaryVertices'),
21 
22  #output collections
23  outputEGMPFValueMap = cms.string(''),
24 
25  # backward compatibility mechanism for ctf tracks
26  ctfTracksCheck = cms.bool(True),
27  ctfTracksTag = cms.InputTag("generalTracks"),
28 
29  gedElectronMode = cms.bool(True),
30  PreSelectMVA = cms.double(-0.1),
31  MaxElePtForOnlyMVA = cms.double(50.0),
32 
33  # steering
34  useGsfPfRecTracks = cms.bool(True),
35  applyPreselection = cms.bool(True),
36  ecalDrivenEcalEnergyFromClassBasedParameterization = cms.bool(False),
37  ecalDrivenEcalErrorFromClassBasedParameterization = cms.bool(False),
38  pureTrackerDrivenEcalErrorFromSimpleParameterization = cms.bool(True),
39  applyAmbResolution = cms.bool(False),
40  ambSortingStrategy = cms.uint32(1),
41  ambClustersOverlapStrategy = cms.uint32(1),
42  addPflowElectrons = cms.bool(True), # this one should be transfered to the "core" level
43  useEcalRegression = cms.bool(True),
44  useCombinationRegression = cms.bool(True),
45 
46  # preselection parameters (ecal driven electrons)
47  minSCEtBarrel = cms.double(4.0),
48  minSCEtEndcaps = cms.double(4.0),
49  minEOverPBarrel = cms.double(0.0),
50  maxEOverPBarrel = cms.double(999999999.),
51  minEOverPEndcaps = cms.double(0.0),
52  maxEOverPEndcaps = cms.double(999999999.),
53  maxDeltaEtaBarrel = cms.double(0.02),
54  maxDeltaEtaEndcaps = cms.double(0.02),
55  maxDeltaPhiBarrel = cms.double(0.15),
56  maxDeltaPhiEndcaps = cms.double(0.15),
57  #useHcalTowers = cms.bool(True),
58  #useHcalRecHits = cms.bool(False),
59  hOverEConeSize = cms.double(0.15),
60  hOverEPtMin = cms.double(0.),
61  #maxHOverEDepth1Barrel = cms.double(0.1),
62  #maxHOverEDepth1Endcaps = cms.double(0.1),
63  #maxHOverEDepth2 = cms.double(0.1),
64  maxHOverEBarrel = cms.double(0.15),
65  maxHOverEEndcaps = cms.double(0.15),
66  maxHBarrel = cms.double(0.0),
67  maxHEndcaps = cms.double(0.0),
68  maxSigmaIetaIetaBarrel = cms.double(999999999.),
69  maxSigmaIetaIetaEndcaps = cms.double(999999999.),
70  maxFbremBarrel = cms.double(999999999.),
71  maxFbremEndcaps = cms.double(999999999.),
72  isBarrel = cms.bool(False),
73  isEndcaps = cms.bool(False),
74  isFiducial = cms.bool(False),
75  maxTIP = cms.double(999999999.),
76  seedFromTEC = cms.bool(True),
77  minMVA = cms.double(-0.4),
78  minMvaByPassForIsolated = cms.double(-0.4),
79 
80  # preselection parameters (tracker driven only electrons)
81  minSCEtBarrelPflow = cms.double(0.0),
82  minSCEtEndcapsPflow = cms.double(0.0),
83  minEOverPBarrelPflow = cms.double(0.0),
84  maxEOverPBarrelPflow = cms.double(999999999.),
85  minEOverPEndcapsPflow = cms.double(0.0),
86  maxEOverPEndcapsPflow = cms.double(999999999.),
87  maxDeltaEtaBarrelPflow = cms.double(999999999.),
88  maxDeltaEtaEndcapsPflow = cms.double(999999999.),
89  maxDeltaPhiBarrelPflow = cms.double(999999999.),
90  maxDeltaPhiEndcapsPflow = cms.double(999999999.),
91  hOverEConeSizePflow = cms.double(0.15),
92  hOverEPtMinPflow = cms.double(0.),
93  #maxHOverEDepth1BarrelPflow = cms.double(999999999.),
94  #maxHOverEDepth1EndcapsPflow = cms.double(999999999.),
95  #maxHOverEDepth2Pflow = cms.double(999999999.),
96  maxHOverEBarrelPflow = cms.double(999999999.),
97  maxHOverEEndcapsPflow = cms.double(999999999.),
98  maxHBarrelPflow = cms.double(0.0),
99  maxHEndcapsPflow = cms.double(0.0),
100  maxSigmaIetaIetaBarrelPflow = cms.double(999999999.),
101  maxSigmaIetaIetaEndcapsPflow = cms.double(999999999.),
102  maxFbremBarrelPflow = cms.double(999999999.),
103  maxFbremEndcapsPflow = cms.double(999999999.),
104  isBarrelPflow = cms.bool(False),
105  isEndcapsPflow = cms.bool(False),
106  isFiducialPflow = cms.bool(False),
107  maxTIPPflow = cms.double(999999999.),
108  minMVAPflow = cms.double(-0.4),
109  minMvaByPassForIsolatedPflow = cms.double(-0.4),
110 
111  # Ecal rec hits configuration
112  recHitFlagsToBeExcludedBarrel = cleanedHybridSuperClusters.RecHitFlagToBeExcluded,
113  recHitFlagsToBeExcludedEndcaps = multi5x5BasicClustersCleaned.RecHitFlagToBeExcluded,
114  recHitSeverityToBeExcludedBarrel = cleanedHybridSuperClusters.RecHitSeverityToBeExcluded,
115  recHitSeverityToBeExcludedEndcaps = cleanedHybridSuperClusters.RecHitSeverityToBeExcluded,
116  #severityLevelCut = cms.int32(4),
117 
118  # Isolation algos configuration
119  intRadiusBarrelTk = cms.double(0.015),
120  intRadiusEndcapTk = cms.double(0.015),
121  stripBarrelTk = cms.double(0.015),
122  stripEndcapTk = cms.double(0.015),
123  ptMinTk = cms.double(0.7),
124  maxVtxDistTk = cms.double(0.2),
125  maxDrbTk = cms.double(999999999.),
126  intRadiusHcal = cms.double(0.15),
127  etMinHcal = cms.double(0.0),
128  intRadiusEcalBarrel = cms.double(3.0),
129  intRadiusEcalEndcaps = cms.double(3.0),
130  jurassicWidth = cms.double(1.5),
131  etMinBarrel = cms.double(0.0),
132  eMinBarrel = cms.double(0.095),
133  etMinEndcaps = cms.double(0.110),
134  eMinEndcaps = cms.double(0.0),
135  vetoClustered = cms.bool(False),
136  useNumCrystals = cms.bool(True),
137  TransientInitialStateEstimatorParameters = cms.PSet(
138  propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
139  propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
140  ),
141 
142  # Corrections
143  superClusterErrorFunction = cms.string("EcalClusterEnergyUncertaintyObjectSpecific"),
144  crackCorrectionFunction = cms.string("EcalClusterCrackCorrection"),
145 
146  # regression. The labels are needed in all cases
147  ecalRefinedRegressionWeightLabels = cms.vstring('gedelectron_EBCorrection_offline_v1',
148  'gedelectron_EECorrection_offline_v1',
149  'gedelectron_EBUncertainty_offline_v1',
150  'gedelectron_EEUncertainty_offline_v1'),
151  combinationRegressionWeightLabels = cms.vstring('gedelectron_p4combination_offline'),
152 
153  ecalWeightsFromDB = cms.bool(True),
154  # if not from DB. Otherwise, keep empty
155  ecalRefinedRegressionWeightFiles = cms.vstring(),
156  combinationWeightsFromDB = cms.bool(True),
157  # if not from DB. Otherwise, keep empty
158  combinationRegressionWeightFile = cms.vstring(),
159 
160  # Iso Values
161  useIsolationValues = cms.bool(False),
162  SoftElecMVAFilesString = cms.vstring(
163  "RecoEgamma/ElectronIdentification/data/TMVA_BDTSoftElectrons_7Feb2014.weights.xml"
164  ),
165  ElecMVAFilesString = cms.vstring(
166  "RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_10_17Feb2011.weights.xml",
167  "RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_12_17Feb2011.weights.xml",
168  "RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_20_17Feb2011.weights.xml",
169  "RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_22_17Feb2011.weights.xml"
170  ),
171 )
172 
173 
174