void SetZP2EqualCoeff(Int_t channel, Float_t val) {fZP2EqualCoeff[channel]=val;}
void SetZP2EqualCoeff(Float_t* EqualCoeff);
//
- void SetEZEMEndValue(Float_t EZEMEndValue) {fEZEMEndValue = EZEMEndValue;}
- void SetEZEMCutFraction(Float_t EZEMCutFraction) {fEZEMCutFraction = EZEMCutFraction;}
- virtual Float_t GetEZEMEndValue() const {return fEZEMEndValue;}
- virtual Float_t GetEZEMCutFraction() const {return fEZEMCutFraction;}
-
+ void SetZEMEndValue(Float_t ZEMEndValue) {fZEMEndValue = ZEMEndValue;}
+ void SetZEMCutFraction(Float_t ZEMCutFraction) {fZEMCutFraction = ZEMCutFraction;}
+ void SetDZEMSup(Float_t DZEMSup) {fDZEMSup = DZEMSup;}
+ void SetDZEMInf(Float_t DZEMInf) {fDZEMInf = DZEMInf;}
+ virtual Float_t GetZEMEndValue() const {return fZEMEndValue;}
+ virtual Float_t GetZEMCutFraction() const {return fZEMCutFraction;}
+ virtual Float_t GetDZEMSup() const {return fDZEMSup;}
+ virtual Float_t GetDZEMInf() const {return fDZEMInf;}
+ //
+ void SetEZN1MaxValue(Float_t value) {fEZN1MaxValue = value;}
+ void SetEZP1MaxValue(Float_t value) {fEZP1MaxValue = value;}
+ void SetEZDC1MaxValue(Float_t value) {fEZDC1MaxValue = value;}
+ void SetEZN2MaxValue(Float_t value) {fEZN2MaxValue = value;}
+ void SetEZP2MaxValue(Float_t value) {fEZP2MaxValue = value;}
+ void SetEZDC2MaxValue(Float_t value) {fEZDC2MaxValue = value;}
+ virtual Float_t GetEZN1MaxValue() const {return fEZN1MaxValue;}
+ virtual Float_t GetEZP1MaxValue() const {return fEZP1MaxValue;}
+ virtual Float_t GetEZDC1MaxValue() const {return fEZDC1MaxValue;}
+ virtual Float_t GetEZN2MaxValue() const {return fEZN2MaxValue;}
+ virtual Float_t GetEZP2MaxValue() const {return fEZP2MaxValue;}
+ virtual Float_t GetEZDC2MaxValue() const {return fEZDC2MaxValue;}
protected:
// --- Pedestals
Float_t fZN2EqualCoeff[5]; // Equalization coefficients for ZN1 PTMs
Float_t fZP2EqualCoeff[5]; // Equalization coefficients for ZN1 PTMs
// --- Coefficients for centrality selection from ZEM signal
- Float_t fEZEMEndValue; //End point value of ZEM energy spectrum
- Float_t fEZEMCutFraction; //Fraction of ZEM energy spectrum used to cut
+ Float_t fZEMEndValue; // End point value of ZEM energy spectrum
+ Float_t fZEMCutFraction; // Fraction of ZEM energy spectrum used to cut
+ Float_t fDZEMSup;// Upper value of EZDCvs.ZEM correlation where ZEM signal is used
+ Float_t fDZEMInf;// Lower value of EZDCvs.ZEM correlation where ZEM signal is used
+ // --- Parameters from EZDC vs. Nspec correlation
+ Float_t fEZN1MaxValue; // Max value of ZN1 vs. Nspec n correlation
+ Float_t fEZP1MaxValue; // Max value of ZP1 vs. Nspec p correlation
+ Float_t fEZDC1MaxValue; // Max value of ZDC1 vs. Nspec n+p correlation
+ Float_t fEZN2MaxValue; // Max value of ZN2 vs. Nspec n correlation
+ Float_t fEZP2MaxValue; // Max value of ZP2 vs. Nspec p correlation
+ Float_t fEZDC2MaxValue; // Max value of ZDC2 vs. Nspec n+p correlation
//
- ClassDef(AliZDCCalibData,7) // ZDC Calibration data
+ ClassDef(AliZDCCalibData,8) // ZDC Calibration data
};
#endif