#include <TObjArray.h>
class AliT0CalibData;
class AliCDBEntry;
+class AliT0CalibWalk;
+class AliT0CalibTimeEq;
+class AliT0CalibLatency;
class AliT0Parameters : public TNamed
{
void SetPMTeff(Int_t ipmt);
void SetTimeDelayTVD(Float_t r=150) { fTimeDelayTVD = r; };
- Float_t GetTimeDelayTVD() { return fTimeDelayTVD; }
+ Float_t GetTimeDelayTVD() const { return fTimeDelayTVD; }
// Get `Fixed' various parameters
Double_t GetZPositionShift(const char* symname);
+
TGraph * GetPMTeff(Int_t ipmt) const
{return (TGraph*)fPMTeff.At(ipmt);}
Float_t GetpmtEFF(Int_t ipmt, Float_t lambda) const
{return((TGraph*)fPMTeff.At(ipmt))->Eval(lambda);}
- TGraph * GetAmpLEDRec(Int_t ipmt) const;
-
+ TGraph *GetAmpLEDRec(Int_t ipmt) const;
TGraph *GetWalk(Int_t ipmt ) const;
- Float_t GetWalkVal(Int_t ipmt, Float_t mv ) const ;
+ TGraph *GetQTC(Int_t ipmt) const;
+ TGraph *GetAmpLED(Int_t ipmt) const;
Float_t GetTimeDelayCFD(Int_t ipmt);
- Float_t GetTimeDelayDA(Int_t ipmt);
-
- // void SetMeanT0(Int_t mean=500) { fMeanT0 = mean; };
- Int_t GetMeanT0 (); //{return fMeanT0;};
-
- TMap * GetMapLookup();
+// Float_t GetTimeV0(Int_t ipmt = 512) {return fTimeV0;}
+ Float_t GetCFD (Int_t ipmt);
+ void SetMeanT0(Float_t mean=512) { fMeanT0 = mean; };
+ Float_t GetMeanT0 () {return fMeanT0;};
+ void SetMeanVertex(Float_t mean=0) { fMeanVertex = mean; };
+ Float_t GetMeanVertex ();
+
+ TMap * GetMapLookup();
Int_t GetChannel(Int_t trm, Int_t tdc, Int_t chain, Int_t channel);
Int_t GetNumberOfTRMs();
void SetNumberOfTRMs(Int_t ntrms=2) {fNumberOfTRMs = ntrms;}
+
+ Float_t GetLatencyHPTDC();
+ Float_t GetLatencyL1();/* {return fLatencyL1;} */
+ Float_t GetLatencyL1A(); /* {return fLatencyL1A;}*/
+ Float_t GetLatencyL1C(); /* {return fLatencyL1C;} */
+
+ void SetLatencyHPTDC(Float_t lat) {fLatencyHPTDC=lat;}
+ void SetLatencyL1(Float_t lat) {fLatencyL1=lat;}
+ void SetLatencyL1A(Float_t lat) { fLatencyL1A=lat;}
+ void SetLatencyL1C(Float_t lat) { fLatencyL1C=lat;}
protected:
static AliT0Parameters* fgInstance; // Static singleton instance
TObjArray fAmpLEDRec; // array of amlitude vs LED-CFD (simulation & reconstruction)
TObjArray fPMTeff; //array PMT registration efficiency
TObjArray fWalk; //array time-amplitude walk
+ TObjArray fQTC; //array of TGraphs for QTC vs number of MIPs
+ TObjArray fAmpLED; //array of TGraphs for LED-CFD vs number of MIPs
+
- Float_t fTimeDelayDA; // sum time delay for LED channel
Float_t fTimeDelayCFD; // sum time delay for CFD channel
+ // Float_t fTimeV0; // sum time delay for CFD channel
Float_t fTimeDelayTVD; //time delay for TVD (vertex trigger channel)
- Int_t fMeanT0; //mean of T0distribution with vertex=0;
-
+ Float_t fMeanT0; //mean of T0distribution with vertex=0;
+ Float_t fMeanVertex; // mean of vertex distribution;
+
+ Float_t fLatencyHPTDC; // all latencies;
+ Float_t fLatencyL1; // all latencies;
+ Float_t fLatencyL1A; // all latencies;
+ Float_t fLatencyL1C; // all latencies;
+
TMap fLookUp; //lookup table
Int_t fNumberOfTRMs; // number of TRMs in setup
+ //latency
+
- static AliT0CalibData * fgCalibData; // singleton for Calibration data
+ static AliT0CalibTimeEq * fgCalibData; // singleton for Calibration data
static AliT0CalibData * fgLookUp; // singleton for Calibration data
- static AliT0CalibData * fgSlewCorr; // singleton for Calibration data
+ static AliT0CalibWalk * fgSlewCorr; // singleton for Calibration data
+ static AliT0CalibLatency * fgLatency; // singleton for Calibration data
AliCDBEntry* fCalibentry ; // pointer to T0 calibration object
AliCDBEntry* fLookUpentry ; // pointer to T0 lokkup table
AliCDBEntry* fSlewCorr ; // pointer to slewing correction
+ AliCDBEntry* fLatency ; // pointer to latency
private:
AliT0Parameters(const AliT0Parameters&);
AliT0Parameters& operator=(const AliT0Parameters&);
- ClassDef(AliT0Parameters,4)
+ ClassDef(AliT0Parameters,6)
};