const Float_t AliITSresponseSDD::fgkTimeOffsetDefault = 54.30;
const Float_t AliITSresponseSDD::fgkADC2keVDefault = 3.34;
const Float_t AliITSresponseSDD::fgkChargevsTimeDefault = 0.00355;
+const Float_t AliITSresponseSDD::fgkADCvsDrTimeDefault = 0.0101;
const Float_t AliITSresponseSDD::fgkCarlosRXClockPeriod = 25.;
ClassImp(AliITSresponseSDD)
TObject(),
fTimeOffset(fgkTimeOffsetDefault),
fADC2keV(fgkADC2keVDefault),
- fChargevsTime(fgkChargevsTimeDefault){
+ fChargevsTime(fgkChargevsTimeDefault)
+{
// default constructor
for(Int_t i=0; i<kNSDDmods;i++){
fTimeZero[i]=fgkTimeOffsetDefault;
fDeltaVDrift[i] = fDeltaVDrift[i+kNSDDmods] = 0.;
fADCtokeV[i]=fgkADC2keVDefault;
+ fADCvsDriftTime[i]=fgkADCvsDrTimeDefault;
}
SetVDCorr2Side(kTRUE); // default for new objects will be separate corrections for 2 sides (bwd compatible)
+ // SetVDCorrMult(kTRUE); // default for new objects will have multiplicative correction v'=(1+corr)*v (bwd compatible)
}
//_________________________________________________________________________
void AliITSresponseSDD::SetHalfLadderATimeZero(Int_t lay, Int_t lad, Float_t tzero){
}
//_________________________________________________________________________
void AliITSresponseSDD::PrintChargeCalibrationParams() const{
- //
+ // Dump charge calibration parameters
+
printf("ADC vs. drift time corr=%f\n",GetChargevsTime());
printf("-------------------------------------\n");
printf("Layer 3\n");
}
//_________________________________________________________________________
void AliITSresponseSDD::PrintTimeZeroes() const{
- //
+ // Dump time zero values
+
printf("Layer 3\n");
for(Int_t ilad=1; ilad<=14; ilad++){
for(Int_t idet=1; idet<=6;idet++){
}
//_________________________________________________________________________
void AliITSresponseSDD::PrintVdriftCorerctions() const{
- //
+ // Dump corrections to vdrift
+
for(Int_t iMod=240; iMod<500; iMod++){
printf("Module %d dVleft=%f dVright=%f\n",iMod,GetDeltaVDrift(iMod,0),GetDeltaVDrift(iMod,1));
}