"CreateECalBarrelCells",
    geometryTool=barrelGeometry,
    doCellCalibration=False,  # already calibrated
    addCellNoise=True,
    filterCellNoise=False,
    noiseTool=noiseBarrel,
    hits=ecalBarrelCellsName,
    cells=ecalBarrelCellsName + "Noise",
    OutputLevel=DEBUG)

noiseHcal = NoiseCaloCellsFlatTool("HCalNoise", cellNoise=0.009)

barrelHcalGeometry = LayerPhiEtaCaloTool("HcalBarrelGeo",
                                         readoutName=hcalBarrelReadoutName,
                                         activeVolumeName="layerVolume",
                                         activeFieldName="layer",
                                         fieldNames=["system"],
                                         fieldValues=[8],
                                         activeVolumesNumber=10)
createHcalBarrelCells = CreateCaloCells(
    "CreateHCalBarrelCells",
    geometryTool=barrelHcalGeometry,
    doCellCalibration=False,  # already calibrated
    addCellNoise=True,
    filterCellNoise=False,
    noiseTool=noiseHcal,
    hits=hcalBarrelCellsName,
    cells=hcalBarrelCellsName + "Noise",
    OutputLevel=DEBUG)

# add noise, create all existing cells in detector
Beispiel #2
0
# geometry tool
from Configurables import TubeLayerPhiEtaCaloTool, LayerPhiEtaCaloTool, NestedVolumesCaloTool
ecalBarrelGeometry = TubeLayerPhiEtaCaloTool("EcalBarrelGeo",
                                             readoutName = ecalBarrelReadoutNamePhiEta,
                                             activeVolumeName = "LAr_sensitive",
                                             activeFieldName = "layer",
                                             fieldNames = ["system"],
                                             fieldValues = [5],
                                             activeVolumesNumber = 8)
# Geometry for layer-eta-phi segmentation                                                                                                                                                                
hcalBarrelGeometry = LayerPhiEtaCaloTool("hcalBarrelGeometry",
                                         readoutName = "BarHCal_Readout_phieta",
                                         activeVolumeName = "layerVolume",
                                         activeFieldName = "layer",
                                         fieldNames = ["system"],
                                         fieldValues = [8],
                                         activeVolumesNumber = 10,
                                         activeVolumesEta = [1.2524, 1.2234, 1.1956, 1.15609, 1.1189, 1.08397, 1.0509, 0.9999, 0.9534, 0.91072]
                                         )

# No segmentation, geometry with nested volumes                                                                                                                                                          
hcalgeo = NestedVolumesCaloTool("hcalgeo",
                                activeVolumeName = hcalVolumeName,
                                activeFieldName = hcalIdentifierName,
                                readoutName = "HCalBarrelReadout",
                                fieldNames = hcalFieldNames,
                                fieldValues = hcalFieldValues)

from Configurables import CreateEmptyCaloCellsCollection
createemptycells = CreateEmptyCaloCellsCollection("CreateEmptyCaloCells")