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Variables | |
| tuple | CATopJetParameters |
00001 cms.PSet( 00002 jetCollInstanceName = cms.string("caTopSubJets"), # subjet collection 00003 verbose = cms.bool(False), 00004 algorithm = cms.int32(1), # 0 = KT, 1 = CA, 2 = anti-KT 00005 tagAlgo = cms.int32(0), #choice of top tagging algorithm 00006 useAdjacency = cms.int32(2), # veto adjacent subjets 00007 # 0 = no adjacency 00008 # 1 = deltar adjacency 00009 # 2 = modified adjacency 00010 # 3 = calotower neirest neigbor based adjacency (untested) 00011 centralEtaCut = cms.double(2.5), # eta for defining "central" jets 00012 sumEtBins = cms.vdouble(0,1600,2600), # sumEt bins over which cuts vary. vector={bin 0 lower bound, bin 1 lower bound, ...} 00013 rBins = cms.vdouble(0.8,0.8,0.8), # Jet distance paramter R. R values depend on sumEt bins. 00014 ptFracBins = cms.vdouble(0.05,0.05,0.05), # minimum fraction of central jet pt for subjets (deltap) 00015 deltarBins = cms.vdouble(0.19,0.19,0.19), # Applicable only if useAdjacency=1. deltar adjacency values for each sumEtBin 00016 nCellBins = cms.vdouble(1.9,1.9,1.9), # Applicable only if useAdjacency=3. number of cells apart for two subjets to be considered "independent" 00017 00018 #NOT USED: 00019 useMaxTower = cms.bool(False), # use max tower in adjacency criterion, otherwise use centroid - NOT USED 00020 sumEtEtaCut = cms.double(3.0), # eta for event SumEt - NOT USED 00021 etFrac = cms.double(0.7), # fraction of event sumEt / 2 for a jet to be considered "hard" - NOT USED 00022 debugLevel = cms.untracked.int32(0) # debug level 00023 )
Definition at line 5 of file CATopJetParameters_cfi.py.
1.7.3