,fkRoad1z(20.0)
,fkRoad2y(3.0)
,fkRoad2z(20.0)
+ ,fkPtThreshold(2.0)
,fkPlaneQualityThreshold(5.0)// 4.2? under Investigation
,fkRoadzMultiplicator(1.5)
,fkFindable(.333)
,fkChi2Y(.25)
,fkChi2YSlope(7.73)
,fkChi2ZSlope(0.069)
- ,fkChi2YCut(0.5)
+ ,fkChi2YCut(0.5)
,fkPhiSlope(10.6)
,fkNMeanClusters(20.)
,fkNSigmaClusters(2.)
,fkNClusterNoise(0.)
,fkNMeanTracklets(5.5)
,fkTrackLikelihood(-15.)
+ ,fNumberOfConfigs(3)
,fFlags(0)
,fRawStreamVersion("REAL")
- ,fADCBaseline(0)
,fMinMaxCutSigma(4.)
,fMinLeftRightCutSigma(8.)
,fClusMaxThresh(4.5)
,fClusSigThresh(3.5)
,fTCnexp(1)
+ ,fRecEveryNTB(1)
,fNumberOfPresamples(0)
,fNumberOfPostsamples(0)
{
,fkRoad1z(ref.fkRoad1z)
,fkRoad2y(ref.fkRoad2y)
,fkRoad2z(ref.fkRoad2z)
+ ,fkPtThreshold(ref.fkPtThreshold)
,fkPlaneQualityThreshold(ref.fkPlaneQualityThreshold)
,fkRoadzMultiplicator(ref.fkRoadzMultiplicator)
,fkFindable(ref.fkFindable)
,fkChi2Y(ref.fkChi2Y)
,fkChi2YSlope(ref.fkChi2YSlope)
,fkChi2ZSlope(ref.fkChi2ZSlope)
- ,fkChi2YCut(ref.fkChi2YCut)
+ ,fkChi2YCut(ref.fkChi2YCut)
,fkPhiSlope(ref.fkPhiSlope)
,fkNMeanClusters(ref.fkNMeanClusters)
,fkNSigmaClusters(ref.fkNSigmaClusters)
,fkNClusterNoise(ref.fkNClusterNoise)
,fkNMeanTracklets(ref.fkNMeanTracklets)
,fkTrackLikelihood(ref.fkTrackLikelihood)
+ ,fNumberOfConfigs(ref.fNumberOfConfigs)
,fFlags(ref.fFlags)
,fRawStreamVersion(ref.fRawStreamVersion)
- ,fADCBaseline(ref.fADCBaseline)
,fMinMaxCutSigma(ref.fMinMaxCutSigma)
,fMinLeftRightCutSigma(ref.fMinLeftRightCutSigma)
,fClusMaxThresh(ref.fClusMaxThresh)
,fClusSigThresh(ref.fClusSigThresh)
,fTCnexp(ref.fTCnexp)
+ ,fRecEveryNTB(ref.fRecEveryNTB)
,fNumberOfPresamples(ref.fNumberOfPresamples)
,fNumberOfPostsamples(ref.fNumberOfPostsamples)
{
AliTRDrecoParam *rec = new AliTRDrecoParam();
rec->fkdNchdy = 12.; // pp in TRD
rec->SetVertexConstrained();
+ rec->SetCheckTimeConsistency();
+ return rec;
+
+}
+
+//______________________________________________________________
+AliTRDrecoParam *AliTRDrecoParam::GetLowFluxHLTParam()
+{
+ //
+ // Parameters for the high flux environment in HLT
+ //
+
+ AliTRDrecoParam *rec = GetLowFluxParam();
+ rec->fNumberOfConfigs = 2;
return rec;
}
AliTRDrecoParam *rec = new AliTRDrecoParam();
rec->fkdNchdy = 4000.; // PbPb in TRD
rec->SetVertexConstrained();
+ rec->SetCheckTimeConsistency();
+ return rec;
+
+}
+
+//______________________________________________________________
+AliTRDrecoParam *AliTRDrecoParam::GetHighFluxHLTParam()
+{
+ //
+ // Parameters for the high flux environment in HLT
+ //
+
+ AliTRDrecoParam *rec = GetHighFluxParam();
+ rec->fNumberOfConfigs = 1;
return rec;
}
par->fkNMeanClusters = 12.89;
par->fkNSigmaClusters = 2.095;
par->fkRoadzMultiplicator = 3.;
- par->fADCBaseline = 10;
par->fStreamLevel[kTracker] = 1;
- par->SetArgon();
+ par->SetCheckTimeConsistency();
return par;
}
nclusters *= 1.+fkNClusterNoise;
return nclusters;
}
+
+//______________________________________________________________
+void AliTRDrecoParam::SetPIDLQslices(Int_t s)
+{
+// Setting number of slices used by the PID LQ method s={1, 2}
+// If PID NN is set this function will change to PID LQ.
+
+ if(IsPIDNeuralNetwork()){
+ AliWarning("PID set to NN. Changing to LQ.");
+ SetPIDNeuralNetwork(kFALSE);
+ }
+
+ switch(s){
+ case 1:
+ if(TESTBIT(fFlags, kLQ2D)) CLRBIT(fFlags, kLQ2D);
+ break;
+ case 2:
+ SETBIT(fFlags, kLQ2D);
+ break;
+ default:
+ AliWarning(Form("N[%d] PID LQ slices not implemented. Using default 2.", s));
+ SETBIT(fFlags, kLQ2D);
+ break;
+ }
+}
+