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particleFlowClusterHFEM_cfi.py
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2 
3 particleFlowClusterHFEM = cms.EDProducer("PFClusterProducer",
4  # verbosity
5  verbose = cms.untracked.bool(False),
6  # PFRecHit collection
7  PFRecHits = cms.InputTag("particleFlowRecHitHCAL","HFEM"),
8  #PFCluster Collection name
9  #PFClusterCollectionName = cms.string("HFEM"),
10  #----all thresholds are in GeV
11  # seed threshold in HF barrel (!)
12  thresh_Seed_Barrel = cms.double(1.4),
13  thresh_Pt_Seed_Barrel = cms.double(0.0),
14  # cell threshold in HF barrel (!)
15  thresh_Barrel = cms.double(0.8),
16  thresh_Pt_Barrel = cms.double(0.0),
17  # cleaning threshold and minimum S4/S1 fraction in HF barrel (!)
18  thresh_Clean_Barrel = cms.double(80.),
19  minS4S1_Clean_Barrel = cms.vdouble(0.11, -0.19),
20  # double spike cleaning (barrel)
21  thresh_DoubleSpike_Barrel = cms.double(1E9),
22  minS6S2_DoubleSpike_Barrel = cms.double(-1.),
23  # seed threshold in HF endcap
24  thresh_Seed_Endcap = cms.double(1.4),
25  thresh_Pt_Seed_Endcap = cms.double(0.0),
26  # cell threshold in HF endcap
27  thresh_Endcap = cms.double(0.8),
28  thresh_Pt_Endcap = cms.double(0.0),
29  # cleaning threshold and minimum S4/S1 fraction in HF endcap
30  thresh_Clean_Endcap = cms.double(80.),
31  minS4S1_Clean_Endcap = cms.vdouble(0.11, -0.19),
32  # double spike cleaning (endcap)
33  thresh_DoubleSpike_Endcap = cms.double(1E9),
34  minS6S2_DoubleSpike_Endcap = cms.double(-1.),
35  #----HCAL options
36  # n neighbours in HFEM
37  nNeighbours = cms.int32(0),
38  # sigma of the shower in HCAL
39  showerSigma = cms.double(10.0),
40  # n crystals for position calculation in HFEM
41  posCalcNCrystal = cms.int32(5),
42  # use cells with common corner to build topo-clusters
43  useCornerCells = cms.bool(False),
44  # enable cleaning of RBX and HPD (HCAL only);
45  cleanRBXandHPDs = cms.bool(False),
46  #----depth correction
47  # depth correction for ECAL clusters:
48  # 0: no depth correction
49  # 1: electrons/photons - depth correction is proportionnal to E
50  # 2: hadrons - depth correction is fixed
51  depthCor_Mode = cms.int32(0),
52  # in mode 1, depth correction = A *( B + log(E) )
53  # in mode 2, depth correction = A
54  depthCor_A = cms.double(0.89),
55  depthCor_B = cms.double(7.4),
56  # under the preshower, the depth is smaller, but the material is
57  # the same
58  depthCor_A_preshower = cms.double(0.89),
59  depthCor_B_preshower = cms.double(4.0)
60 )
61 
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