# Run with:
# gaudirun.py $KEPLERROOT/options/simulation.py
from Gaudi.Configuration import *
from Configurables import Kepler
# Set the number of events to run over
Kepler().EvtMax = 100
# Change the sequence of code that is run ---------------
def sim():
seq = GaudiSequencer("Telescope")
# TestMC options.
from Configurables import TbTestMC
TbTestMC().doMisAlign = False
TbTestMC().NTracks = 200
TbTestMC().RunDuration = 10000
TbTestMC().NNoiseClusters = 0
TbTestMC().HitTimeJitter = 20
TbTestMC().ClusterPosnError = 0.001
TbTestMC().ClusterADCMPV = 300.0 # Ish.
TbTestMC().ChargeSharingWidth = 0.033 # Best not to change much.
TbTestMC().ThresholdCut = 20
TbTestMC().ForceEfficiency = True
#TbTestMC().InitAlignment = "Alignment_perfect.dat"
#TbTestMC().InitAlignment = Alignment_raw.dat
# TbClustering options.
from Configurables import TbClustering
TbClustering().TimeWindow = 200
# TbTracking options.
from Configurables import TbTracking
TbTracking().TimeWindow = 300
TbTracking().SearchRadius = 1
TbTracking().MinNClusters = 7
TbTracking().Monitoring = True
TbTracking().SearchVolume = "cylinder" # {cylinder, diabolo}
# TbTracking speed options.
TbTracking().nComboCut = 1000 # O(10) for speed.
TbTracking().SearchVolumeFillAlgorithm = "adap_seq" # {seq, adap_seq}. Adap faster.
seq.Members = [TbTestMC(), TbClustering(), TbTracking()]
seq = GaudiSequencer("Monitoring")
from Configurables import TbClusterPlots, TbTrackPlots
seq.Members = [TbClusterPlots(), TbTrackPlots()]
appendPostConfigAction(sim)
iaro