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TrackJetParameters_cfi.py
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1 import FWCore.ParameterSet.Config as cms
2 
3 TrackJetParameters = cms.PSet(
4  src = cms.InputTag('trackRefsForJets'),
5  srcPVs = cms.InputTag('offlinePrimaryVertices'),
6  jetType = cms.string('TrackJet'),
7  doOutputJets = cms.bool(True),
8  jetPtMin = cms.double(3.0),
9  inputEMin = cms.double(0.0),
10  inputEtMin = cms.double(0.0),
11  doPVCorrection = cms.bool(False),
12  # pileup with offset correction
13  doPUOffsetCorr = cms.bool(False),
14  # if pileup is false, these are not read:
15  nSigmaPU = cms.double(1.0),
16  radiusPU = cms.double(0.5),
17  # fastjet-style pileup
18  doAreaFastjet = cms.bool(False),
19  doRhoFastjet = cms.bool(False),
20  doAreaDiskApprox= cms.bool( False),
21  voronoiRfact = cms.double(-0.9),
22  # if doPU is false, these are not read:
23  Active_Area_Repeats = cms.int32(1),
24  GhostArea = cms.double(0.01),
25  Ghost_EtaMax = cms.double(5.0),
26  # only use the tracks that were used to fit the vertex
27  UseOnlyVertexTracks = cms.bool(False),
28  # only consider the highest-sum-pT PV for clustering
29  UseOnlyOnePV = cms.bool(False),
30  # maximum z-distance between track and vertex for association (in cm)
31  DzTrVtxMax = cms.double(1),
32  # maximum xy-distance between track and vertex for association (in cm)
33  DxyTrVtxMax = cms.double(0.2),
34  # minimum number of degrees of freedom to call a PV a good vertex
35  MinVtxNdof = cms.int32(5),
36  # maximum z distance to origin to call a PV a good vertex
37  MaxVtxZ = cms.double(15.),
38  useDeterministicSeed= cms.bool( True ),
39  minSeed = cms.uint32( 14327 )
40 )