1., 1., 1., 1., 1., 1., 1., ) distance_C3d_params = cms.PSet( type_multicluster=cms.string('dRC3d'), dR_multicluster=cms.double(0.01), minPt_multicluster=cms.double(0.5), # minimum pt of the multicluster (GeV) dist_dbscan_multicluster=cms.double(0.), minN_dbscan_multicluster=cms.uint32(0), EGIdentification=egamma_identification_drnn_cone.clone(), ) dbscan_C3d_params = cms.PSet( type_multicluster=cms.string('DBSCANC3d'), dR_multicluster=cms.double(0.), minPt_multicluster=cms.double(0.5), # minimum pt of the multicluster (GeV) dist_dbscan_multicluster=cms.double(0.005), minN_dbscan_multicluster=cms.uint32(3), EGIdentification=egamma_identification_drnn_dbscan.clone()) histoMax_C3d_seeding_params = cms.PSet( type_histoalgo=cms.string('HistoMaxC3d'), nBins_X1_histo_multicluster=cms.uint32(42), # bin size of about 0.012 nBins_X2_histo_multicluster=cms.uint32(216), # bin size of about 0.029 binSumsHisto=binSums,
import FWCore.ParameterSet.Config as cms import SimCalorimetry.HGCalSimProducers.hgcalDigitizer_cfi as digiparam import RecoLocalCalo.HGCalRecProducers.HGCalUncalibRecHit_cfi as recoparam import RecoLocalCalo.HGCalRecProducers.HGCalRecHit_cfi as recocalibparam from L1Trigger.L1THGCal.egammaIdentification import egamma_identification_drnn_cone C3d_parValues = cms.PSet( type_multicluster = cms.string('dRC3d'), dR_multicluster = cms.double(0.01), minPt_multicluster = cms.double(0.5), # minimum pt of the multicluster (GeV) dist_dbscan_multicluster=cms.double(0.), minN_dbscan_multicluster=cms.uint32(0), EGIdentification=egamma_identification_drnn_cone.clone() ) be_proc = cms.PSet( ProcessorName = cms.string('HGCalBackendLayer2Processor3DClustering'), C3d_parameters = C3d_parValues.clone() ) hgcalBackEndLayer2Producer = cms.EDProducer( "HGCalBackendLayer2Producer", InputCluster = cms.InputTag('hgcalBackEndLayer1Producer:HGCalBackendLayer1Processor2DClustering'), ProcessorParameters = be_proc.clone() )