hgcalBackEndLayer2Producer_cfi Namespace Reference

Variables
tuple	be_proc
int	BH_DR_GROUP = 12
tuple	binSums
tuple	dbscan_C3d_params
tuple	distance_C3d_params
tuple	dr_layerbylayer
tuple	dr_layerbylayer_Bcoefficient
int	EE_DR_GROUP = 7
tuple	energy_interpretations = cms.VPSet(energy_interpretations_em)
tuple	energy_interpretations_em
int	FH_DR_GROUP = 6
tuple	hgcalBackEndLayer2Producer
tuple	hgcalBackEndLayer2ProducerHFNose
tuple	histoInterpolatedMax_C3d_params
tuple	histoMax_C3d_clustering_params
tuple	histoMax_C3d_params
tuple	histoMax_C3d_seeding_params
tuple	histoMaxVariableDR_C3d_params
tuple	histoMaxXYVariableDR_C3d_params
tuple	histoSecondaryMax_C3d_params
tuple	histoThreshold_C3d_params
tuple	layer_containment_corrs = cms.vdouble(0., 0.0, 1.73, 0.97, 1.08, 1.1, 1.01, 0.96, 1.18, 0.98, 1.05, 0.99, 0.89, 1.75, 2.0)
int	MAX_LAYERS = 52
tuple	neighbour_weights_1stOrder
tuple	neighbour_weights_2ndOrder
tuple	scale_correction_coeff = cms.vdouble(53.92, -27.53)
tuple	seed_smoothing_ecal
tuple	seed_smoothing_hcal
float	threshold_histo_multicluster = 8.5

Variable Documentation

tuple hgcalBackEndLayer2Producer_cfi.be_proc

Initial value:

= cms.PSet(ProcessorName  = cms.string('HGCalBackendLayer2Processor3DClustering'),
                   C3d_parameters = histoMax_C3d_params.clone(),
                   energy_interpretations = energy_interpretations
                   )

Definition at line 167 of file hgcalBackEndLayer2Producer_cfi.py.

int hgcalBackEndLayer2Producer_cfi.BH_DR_GROUP = 12

Definition at line 22 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.binSums

Initial value:

= cms.vuint32(13,               # 0
                      11, 11, 11,       # 1 - 3
                      9, 9, 9,          # 4 - 6
                      7, 7, 7, 7, 7, 7,  # 7 - 12
                      5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5,  # 13 - 27
                      3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3  # 28 - 41
                      )

Definition at line 12 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.dbscan_C3d_params

Initial value:

= 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())

Definition at line 70 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.distance_C3d_params

Initial value:

= 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(),
                               )

Definition at line 61 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.dr_layerbylayer

Initial value:

= ([0] + # no layer 0
        [0.015]*EE_DR_GROUP + [0.020]*EE_DR_GROUP + [0.030]*EE_DR_GROUP + [0.040]*EE_DR_GROUP + # EM
        [0.040]*FH_DR_GROUP + [0.050]*FH_DR_GROUP + # FH
        [0.050]*BH_DR_GROUP)

Definition at line 26 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.dr_layerbylayer_Bcoefficient

Initial value:

= ([0] + # no layer 0
        [0.020]*EE_DR_GROUP + [0.020]*EE_DR_GROUP + [0.02]*EE_DR_GROUP + [0.020]*EE_DR_GROUP + # EM
        [0.020]*FH_DR_GROUP + [0.020]*FH_DR_GROUP + # FH
        [0.020]*BH_DR_GROUP)

Definition at line 32 of file hgcalBackEndLayer2Producer_cfi.py.

int hgcalBackEndLayer2Producer_cfi.EE_DR_GROUP = 7

Definition at line 20 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.energy_interpretations = cms.VPSet(energy_interpretations_em)

Definition at line 165 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.energy_interpretations_em

Initial value:

= cms.PSet(type = cms.string('HGCalTriggerClusterInterpretationEM'),
                                     layer_containment_corrs = cms.vdouble(0., 0.0, 1.38, 0.97, 1.11, 0.92, 1.06, 1.01, 1.06, 0.89, 1.0, 1.06, 0.89, 1.62, 1.83),
                                     scale_correction_coeff = cms.vdouble(53.94, -27.15),
                                     dr_bylayer = cms.vdouble([0.015]*15)
                                     )

Definition at line 146 of file hgcalBackEndLayer2Producer_cfi.py.

int hgcalBackEndLayer2Producer_cfi.FH_DR_GROUP = 6

Definition at line 21 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.hgcalBackEndLayer2Producer

Initial value:

= cms.EDProducer(
    "HGCalBackendLayer2Producer",
    InputCluster = cms.InputTag('hgcalBackEndLayer1Producer:HGCalBackendLayer1Processor2DClustering'),
    ProcessorParameters = be_proc.clone()
    )

Definition at line 172 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.hgcalBackEndLayer2ProducerHFNose

Initial value:

= hgcalBackEndLayer2Producer.clone(
    InputCluster = cms.InputTag('hgcalBackEndLayer1ProducerHFNose:HGCalBackendLayer1Processor2DClustering'),
    ProcessorParameters = dict(
        C3d_parameters = dict(
            histoMax_C3d_seeding_parameters = dict(
                ## note in #Phi same bin size for HGCAL and HFNose
                nBins_X1_histo_multicluster = 4, # R bin size: 5 FullModules * 8 TP
                binSumsHisto = cms.vuint32(13,11,9,9),
                kROverZMin = 0.025,
                kROverZMax = 0.1
            )
        )
    )
)

Definition at line 179 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.histoInterpolatedMax_C3d_params

Initial value:

= histoMax_C3d_seeding_params.clone(
        type_histoalgo = cms.string('HistoInterpolatedMaxC3d')
        )

Definition at line 129 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.histoMax_C3d_clustering_params

Initial value:

= cms.PSet(dR_multicluster=cms.double(0.03),
                               dR_multicluster_byLayer_coefficientA=cms.vdouble(),
                               dR_multicluster_byLayer_coefficientB=cms.vdouble(),
                               shape_threshold=cms.double(1.),
                               shape_distance=cms.double(0.015),
                               minPt_multicluster=cms.double(0.5),  # minimum pt of the multicluster (GeV)
                               cluster_association=cms.string("NearestNeighbour"),
                               EGIdentification=egamma_identification_histomax.clone(),
                               )

Definition at line 92 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.histoMax_C3d_params

Initial value:

= cms.PSet(
        type_multicluster=cms.string('Histo'),
        histoMax_C3d_clustering_parameters = histoMaxVariableDR_C3d_params.clone(),
        histoMax_C3d_seeding_parameters = histoMax_C3d_seeding_params.clone(),
        )

Definition at line 139 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.histoMax_C3d_seeding_params

Initial value:

= 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,
                               kROverZMin=cms.double(0.076),
                               kROverZMax=cms.double(0.58),
                               threshold_histo_multicluster=cms.double(10.),
                               neighbour_weights=neighbour_weights_1stOrder,
                               seed_position=cms.string("TCWeighted"),#BinCentre, TCWeighted
                               seeding_space=cms.string("RPhi"),# RPhi, XY
                               seed_smoothing_ecal=seed_smoothing_ecal,
                               seed_smoothing_hcal=seed_smoothing_hcal,
                              )

Definition at line 78 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.histoMaxVariableDR_C3d_params

Initial value:

= histoMax_C3d_clustering_params.clone(
        dR_multicluster = cms.double(0.),
        dR_multicluster_byLayer_coefficientA = cms.vdouble(dr_layerbylayer),
        dR_multicluster_byLayer_coefficientB = cms.vdouble([0]*(MAX_LAYERS+1))
        )

Definition at line 112 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.histoMaxXYVariableDR_C3d_params

Initial value:

= histoMax_C3d_seeding_params.clone(
        seeding_space=cms.string("XY"),
        nBins_X1_histo_multicluster=cms.uint32(192),
        nBins_X2_histo_multicluster=cms.uint32(192)
        )

Definition at line 123 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.histoSecondaryMax_C3d_params

Initial value:

= histoMax_C3d_seeding_params.clone(
        type_histoalgo = cms.string('HistoSecondaryMaxC3d')
        )

Definition at line 119 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.histoThreshold_C3d_params

Initial value:

= histoMax_C3d_seeding_params.clone(
        type_histoalgo = cms.string('HistoThresholdC3d')
        )

Definition at line 134 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.layer_containment_corrs = cms.vdouble(0., 0.0, 1.73, 0.97, 1.08, 1.1, 1.01, 0.96, 1.18, 0.98, 1.05, 0.99, 0.89, 1.75, 2.0)

Definition at line 154 of file hgcalBackEndLayer2Producer_cfi.py.

int hgcalBackEndLayer2Producer_cfi.MAX_LAYERS = 52

Definition at line 23 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.neighbour_weights_1stOrder

Initial value:

= cms.vdouble(0, 0.25, 0,
                                         0.25, 0, 0.25,
                                         0, 0.25, 0)

Definition at line 38 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.neighbour_weights_2ndOrder

Initial value:

= cms.vdouble(-0.25, 0.5, -0.25,
                                         0.5, 0,  0.5,
                                         -0.25, 0.5, -0.25)

Definition at line 42 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.scale_correction_coeff = cms.vdouble(53.92, -27.53)

Definition at line 155 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.seed_smoothing_ecal

Initial value:

= cms.vdouble(
        1., 1., 1.,
        1., 1.1, 1.,
        1., 1., 1.,
        )

Definition at line 47 of file hgcalBackEndLayer2Producer_cfi.py.

tuple hgcalBackEndLayer2Producer_cfi.seed_smoothing_hcal

Initial value:

= cms.vdouble(
        1., 1., 1., 1., 1.,
        1., 1., 1., 1., 1.,
        1., 1., 2., 1., 1.,
        1., 1., 1., 1., 1.,
        1., 1., 1., 1., 1.,
        )

Definition at line 52 of file hgcalBackEndLayer2Producer_cfi.py.

float hgcalBackEndLayer2Producer_cfi.threshold_histo_multicluster = 8.5

Definition at line 108 of file hgcalBackEndLayer2Producer_cfi.py.