Float_t GetWalkVal(Int_t ipmt, Float_t mv ) const {return ((TGraph*)fWalk.At(ipmt))->Eval(mv);}
void SetWalk(Int_t ipmt) ;
- TGraph * GetSlew(Int_t ipmt) const {return (TGraph*)fSlewingLED.At(ipmt);}
- Float_t GetSlewingLED(Int_t ipmt, Float_t mv) const
- {return((TGraph*)fSlewingLED.At(ipmt))->Eval(mv);}
- TGraph * GetSlewRec(Int_t ipmt) const {return (TGraph*)fSlewingRec.At(ipmt);}
- Float_t GetSlewingRec(Int_t ipmt, Float_t mv) const
- {return((TGraph*)fSlewingRec.At(ipmt))->Eval(mv);}
+ TGraph * GetAmpLED(Int_t ipmt) const {return (TGraph*)fAmpLED.At(ipmt);}
+ Float_t GetAmpLEDVal(Int_t ipmt, Float_t mv) const
+ {return((TGraph*)fAmpLED.At(ipmt))->Eval(mv);}
+ TGraph * GetAmpLEDRec(Int_t ipmt) const {return (TGraph*)fAmpLEDRec.At(ipmt);}
+ Float_t GetAmpLEDRecVal(Int_t ipmt, Float_t mv) const
+ {return((TGraph*)fAmpLEDRec.At(ipmt))->Eval(mv);}
- void SetSlewingLED(Int_t ipmt) ;
- void SetSlewingRec(Int_t ipmt) ;
+ void SetAmpLED(Int_t ipmt) ;
+ void SetAmpLEDRec(Int_t ipmt) ;
void SetTimeDelayCFD(Float_t val, Int_t channel) {fTimeDelayCFD[channel]=val;}
void SetTimeDelayCFD(Float_t* TimeDelay);
Float_t fTimeDelayTVD; //time delay for TVD (vertex trigger channel)
Int_t fMeanT0; //mean of T0distribution with vertex=0;
TObjArray fWalk; //time - amp. walk
- TObjArray fSlewingLED; //time - amp.LED slew
- TObjArray fSlewingRec; //time - amp. LED slew for reconstruction
+ TObjArray fAmpLED; //time - amp.LED-CFD for simulation
+ TObjArray fAmpLEDRec; //time - amp. LED-CFD for reconstruction
TMap fLookup; //lookup table
Int_t fNumberOfTRMs; // number of TRMs in setup
//
- ClassDef(AliT0CalibData,5) // T0 Sensor Calibration data
+ ClassDef(AliT0CalibData,6) // T0 Sensor Calibration data
};
typedef AliT0CalibData AliSTARTCalibData; // for backward compatibility