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Reconstruction_hiSignal_cff.py
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1 import FWCore.ParameterSet.Config as cms
2 
4 
5 # Make sure the intermediate digi+reco products of the input even are dropped.
6 # Add this in your PoolSource.inputCommands
7 
8 dropAllExceptFinalProducts = cms.PSet()
9 
10 # Clone the final product producers, whose originals will be kept from the previous mixed event.
11 
12 #Tracks
13 hiSignalGlobalPrimTracks = hiGlobalPrimTracks.clone()
14 hiSignalSelectedTracks = hiSelectedTracks.clone()
15 hiSelectedTracks.src = cms.InputTag("hiSignalGlobalPrimTracks")
16 heavyIonTracking = cms.Sequence(hiPixelVertices
17  * hiPrimSeeds
18  * hiPrimTrackCandidates
19  * hiSignalGlobalPrimTracks
20  * hiSelectedTracks
21  )
22 
23 #Ecal
24 hiSignalCorrectedIslandBarrelSuperClusters = correctedIslandBarrelSuperClusters.clone()
25 hiSignalCorrectedIslandEndcapSuperClusters = correctedIslandEndcapSuperClusters.clone()
26 
27 islandClusteringSequence = cms.Sequence(islandBasicClusters
28  *islandSuperClusters
29  *hiSignalCorrectedIslandBarrelSuperClusters
30  *hiSignalCorrectedIslandEndcapSuperClusters
31  )
32 
33 #Jets
34 hiSignalIterativeConePu5CaloJets = iterativeConePu5CaloJets.clone()
35 runjets = cms.Sequence(caloTowersRec*caloTowers*hiSignalIterativeConePu5CaloJets)
36 
37 #Muons
38 hiSignalGlobalMuons = globalMuons.clone()
39 hiSignalGlobalMuons.TrackerCollectionLabel = 'hiSignalGlobalPrimTracks'
40 muontracking = cms.Sequence(standAloneMuonSeeds*standAloneMuons*hiSignalGlobalMuons)
41 
42 
43 #Use same sequences as Reconstruction_HI_cff
44