from LArCalibUtils.LArCalibUtilsConf import LArOFCAlg
from LArCalibUtils.LArCalibUtilsConf import LArOFPhasePicker

for ofcdef in OFCDefs:
    if ofcdef == 0: continue
    LArPhysOFCAlg = LArOFCAlg(ofcdef.Algoname)
    LArPhysOFCAlg.RunThreaded = RunThreaded
    LArPhysOFCAlg.ReadCaliWave = False
    LArPhysOFCAlg.KeyList = [InputKey]
    LArPhysOFCAlg.Normalize = True
    LArPhysOFCAlg.Verify = True
    LArPhysOFCAlg.FillShape = True
    LArPhysOFCAlg.GroupingType = GroupingType

    LArPhysOFCAlg.Nphase = ofcdef.Nphase
    LArPhysOFCAlg.Dphase = ofcdef.Dphase
    LArPhysOFCAlg.Ndelay = 24
    LArPhysOFCAlg.Nsample = ofcdef.Nsamples

    LArPhysOFCAlg.AddTimeOffset = -1.0 * TimeShiftGuardRegion
    LArPhysOFCAlg.LArPhysWaveBinKey = "LArPhysWaveShift"

    LArPhysOFCAlg.KeyShape = ofcdef.KeyShape

    LArPhysOFCAlg.UseDelta = ofcdef.useDelta[0]
    LArPhysOFCAlg.KeyOFC = ofcdef.KeyOFC[0]
    if ofcdef.PhysAutoCorr[0]:
        LArPhysOFCAlg.DecoderTool = theLArPhysAutoCorrDecoderTool
    else:
        LArPhysOFCAlg.DecoderTool = theLArAutoCorrDecoderTool
    theLArPhysAutoCorrDecoderTool.isSC = SuperCells
    theLArPhysAutoCorrDecoderTool.KeyAutoCorr = "LArPhysAutoCorr"
    ToolSvc += theLArPhysAutoCorrDecoderTool

from LArCalibUtils.LArCalibUtilsConf import LArOFCAlg

LArPhysOFCAlg = LArOFCAlg("LArPhysOFCAlg")

LArPhysOFCAlg.ReadCaliWave = False
LArPhysOFCAlg.KeyList = [InputKey]
LArPhysOFCAlg.Normalize = Normalize
LArPhysOFCAlg.Verify = True
LArPhysOFCAlg.GroupingType = GroupingType

LArPhysOFCAlg.Nphase = Nphases
LArPhysOFCAlg.Dphase = Dphases
LArPhysOFCAlg.Ndelay = Ndelays
LArPhysOFCAlg.Nsample = Nsamples
LArPhysOFCAlg.FillShape = FillShape
LArPhysOFCAlg.TimeShift = TimeShift
LArPhysOFCAlg.TimeShiftByIndex = TimeShiftByIndex
LArPhysOFCAlg.AddTimeOffset = -1.0 * TimeShiftGuardRegion
LArPhysOFCAlg.LArPhysWaveBinKey = ShiftKey

LArPhysOFCAlg.UseDelta = 0  #Only for high-mu OFCs
LArPhysOFCAlg.KeyOFC = OFCKey
LArPhysOFCAlg.KeyShape = ShapeKey
LArPhysOFCAlg.DecoderTool = theLArAutoCorrDecoderTool
LArPhysOFCAlg.isSC = SuperCells
if Nsamples == 4:
    LArPhysOFCAlg.ReadDSPConfig = ReadDSPConfig
Exemplo n.º 3
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    LArPhysWaveShifter.TimeShiftGuardRegion = TimeShiftGuardRegion
    LArPhysWaveShifter.UsePhysCaliTdiff = UsePhysCaliTdiff

    topSequence += LArPhysWaveShifter

###########################################################################
#                      OFC computation
###########################################################################

from LArCalibUtils.LArCalibUtilsConf import LArOFCAlg

LArPhysOFCAlg = LArOFCAlg("LArPhysOFCAlg")
LArPhysOFCAlg.ReadCaliWave = False
LArPhysOFCAlg.KeyList = [ContainerKey]
LArPhysOFCAlg.Nphase = Nphases
LArPhysOFCAlg.Dphase = Dphases
LArPhysOFCAlg.Ndelay = Ndelays
LArPhysOFCAlg.Nsample = Nsamples
LArPhysOFCAlg.Normalize = Normalize
LArPhysOFCAlg.TimeShift = TimeShift
LArPhysOFCAlg.TimeShiftByIndex = TimeShiftByIndex
LArPhysOFCAlg.Verify = True
LArPhysOFCAlg.FillShape = FillShape
if (doOFCPicker):
    LArPhysOFCAlg.KeyOFC = "tempOFC"
    LArPhysOFCAlg.KeyShape = "tempShape"
else:
    LArPhysOFCAlg.KeyOFC = OFCKey
    LArPhysOFCAlg.KeyShape = ShapeKey

if (DumpOFC):
Exemplo n.º 4
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            i]  # this is also the key for the output LArOFCComplete
        LArCaliOFCAlgVec[i].FillShape = FillShape
        LArCaliOFCAlgVec[i].KeyShape = ShapeKeySplitted[
            i]  # this is the key for the output LArShapeComplete
        if (DumpOFC):
            LArCaliOFCAlgVec[i].DumpOFCfile = "LArOFCCali" + str(i +
                                                                 1) + ".dat"
        LArCaliOFCAlgVec[i].GroupingType = GroupingType
        LArCaliOFCAlgVec[i].DecoderTool = theLArAutoCorrDecoderTool

else:
    LArCaliOFCAlg = LArOFCAlg("LArCaliOFCAlg")
    LArCaliOFCAlg.ReadCaliWave = True
    LArCaliOFCAlg.KeyList = [ContainerKey]
    LArCaliOFCAlg.Nphase = Nphases
    LArCaliOFCAlg.Dphase = Dphases
    LArCaliOFCAlg.Ndelay = Ndelays
    LArCaliOFCAlg.Nsample = Nsamples
    LArCaliOFCAlg.Normalize = Normalize
    LArCaliOFCAlg.TimeShift = TimeShift
    LArCaliOFCAlg.TimeShiftByIndex = TimeShiftByIndex
    LArCaliOFCAlg.Verify = True
    LArCaliOFCAlg.FillShape = FillShape
    if (DumpOFC):
        LArCaliOFCAlg.DumpOFCfile = "LArOFCCali.dat"
    LArCaliOFCAlg.GroupingType = GroupingType
    LArCaliOFCAlg.DecoderTool = theLArAutoCorrDecoderTool
    topSequence += LArCaliOFCAlg

###########################################################################
Exemplo n.º 5
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###########################################################################
#                      OFC computation
###########################################################################

from LArCalibUtils.LArCalibUtilsConf import LArOFCAlg

LArPhysOFCAlg = LArOFCAlg("LArPhysOFCAlg")

LArPhysOFCAlg.ReadCaliWave = False
LArPhysOFCAlg.KeyList = [InputKey]
LArPhysOFCAlg.Normalize = Normalize
LArPhysOFCAlg.Verify = True
LArPhysOFCAlg.GroupingType = GroupingType

LArPhysOFCAlg.Nphase = Nphases
LArPhysOFCAlg.Dphase = Dphases
LArPhysOFCAlg.Ndelay = Ndelays
LArPhysOFCAlg.Nsample = Nsamples
LArPhysOFCAlg.FillShape = FillShape
LArPhysOFCAlg.TimeShift = TimeShift
LArPhysOFCAlg.TimeShiftByIndex = TimeShiftByIndex
LArPhysOFCAlg.AddTimeOffset = -1.0 * TimeShiftGuardRegion
LArPhysOFCAlg.LArPhysWaveBinKey = ShiftKey

LArPhysOFCAlg.UseDelta = UseDelta
LArPhysOFCAlg.KeyOFC = OFCKey
LArPhysOFCAlg.KeyShape = ShapeKey

topSequence += LArPhysOFCAlg

LArPhysOFCAlg2 = LArOFCAlg("LArPhysOFCAlg2")