#ifndef ALIITSCALIBRATIONSSD_H
#define ALIITSCALIBRATIONSSD_H
-
+/* Copyright(c) 2007-2009, ALICE Experiment at CERN, All rights reserved. *
+ * See cxx source for full Copyright notice */
#include "AliITSCalibration.h"
-#include "AliITSresponseSSD.h"
+#include "AliITSNoiseSSDv2.h"
+#include "AliITSPedestalSSDv2.h"
+#include "AliITSGainSSDv2.h"
+#include "AliITSBadChannelsSSDv2.h"
#include "TArrayF.h"
#include "TArrayI.h"
+/* $Id$ */
//////////////////////////////////////////////
-// Response class for SSD //
+// Calibration class for SSD //
// //
//////////////////////////////////////////////
class AliITSCalibrationSSD : public AliITSCalibration {
AliITSCalibrationSSD(const char *dataType);
virtual ~AliITSCalibrationSSD();
- virtual void SetNoiseParam(Double_t np, Double_t nn) {
- // set noise par
- fNoiseP=np; fNoiseN=nn;
- }
+ Float_t GetNoiseP(Int_t n) {return fNoise->GetNoiseP(fModule,n); }
+ Float_t GetNoiseN(Int_t n) {return fNoise->GetNoiseN(fModule,n); }
+ void SetNoise( AliITSNoiseSSDv2* noise) {fNoise=noise;}
- virtual void GetNoiseParam(Double_t &np, Double_t &nn) const {
- // get noise par
- np=fNoiseP; nn=fNoiseN;
- }
+ Float_t GetPedestalP(Int_t n) {return fPedestal->GetPedestalP(fModule,n); }
+ Float_t GetPedestalN(Int_t n) {return fPedestal->GetPedestalN(fModule,n); }
+ void SetPedestal( AliITSPedestalSSDv2* pedestal) {fPedestal=pedestal;}
- // EF
- void SetNNoiseP(Int_t n) { fNoisP.Set(n); }
- void AddNoiseP(Int_t c, Float_t n) { fNoisP.AddAt(n,c);}
- TArrayF GetNoiseP() const {return fNoisP; }
- Float_t GetNoiseP(Int_t n) {return fNoisP.At(n); }
- void SetNNoiseN(Int_t n) { fNoisN.Set(n); }
- void AddNoiseN(Int_t c, Float_t n) { fNoisN.AddAt(n,c);}
- TArrayF GetNoiseN() const {return fNoisN; }
- Float_t GetNoiseN(Int_t n) {return fNoisN.At(n); }
-
- void SetNGainP(Int_t n) { fGainP.Set(n); }
- void AddGainP(Int_t c, Float_t n) { fGainP.AddAt(n,c);}
- TArrayF GetGainP() const {return fGainP; }
- Float_t GetGainP(Int_t n) {return fGainP.At(n); }
- void SetNGainN(Int_t n) { fGainN.Set(n); }
- void AddGainN(Int_t c, Float_t n) { fGainN.AddAt(n,c);}
- TArrayF GetGainN() const {return fGainN; }
- Float_t GetGainN(Int_t n) {return fGainN.At(n); }
-
- void SetNoisePThreshold(Int_t threshold) { fNoisePThreshold = threshold;}
- void AddNoisyPChannel(Int_t c, Int_t n) { fNoisyPChannelsList.AddAt(n,c);}
- TArrayI GetNoisyPChannelsList() const {return fNoisyPChannelsList; }
- void SetNoiseNThreshold(Int_t threshold) { fNoiseNThreshold = threshold;}
- void AddNoisyNChannel(Int_t c, Int_t n) { fNoisyNChannelsList.AddAt(n,c);}
- TArrayI GetNoisyNChannelsList() const {return fNoisyNChannelsList; }
-
- void SetNDeadPChannelsList(Int_t n) { fDeadPChannelsList.Set(n); }
- void AddDeadPChannel(Int_t c, Int_t n) { fDeadPChannelsList.AddAt(n,c);}
- TArrayI GetDeadPChannelsList() const {return fDeadPChannelsList; }
- void SetNDeadNChannelsList(Int_t n) { fDeadNChannelsList.Set(n); }
- void AddDeadNChannel(Int_t c, Int_t n) { fDeadNChannelsList.AddAt(n,c);}
- TArrayI GetDeadNChannelsList() const {return fDeadNChannelsList; }
- //
+ Float_t GetGainP(Int_t n) {return fGain->GetGainP(fModule,n); }
+ Float_t GetGainN(Int_t n) {return fGain->GetGainN(fModule,n); }
+ void SetGainP(Int_t n, Float_t value) {fGain->AddGainP(fModule,n,value);}
+ void SetGainN(Int_t n, Float_t value) {fGain->AddGainN(fModule,n,value);}
+ void SetGain( AliITSGainSSDv2* gain) {fGain=gain;}
+ void SetBad() {
+ fIsBad = kTRUE;
+ for(Int_t i=0;i<fgkChipsPerModule;i++) fIsChipBad[i]=kTRUE;
+ }
+ virtual Bool_t IsBad() const { return fIsBad; }
+ void SetChipBad(Int_t nChip) {
+ fIsChipBad[nChip] = kTRUE;
+ }
+ void FillBadChipMap();
+ virtual Bool_t IsChipBad(Int_t nChip) const {
+ return fIsChipBad[nChip];
+ }
+ Int_t ChipsPerModule() const{return fgkChipsPerModule;} // # chips/module
+ Int_t ChannelsPerChip() const{ return fgkChannelsPerChip;}// #channels/chip
+
+ void SetBadChannels( AliITSBadChannelsSSDv2* badchannels) {
+ fBadChannels=badchannels;}
+ Char_t GetBadPChannel(Int_t n) {
+ return fBadChannels->GetBadChannelP(fModule,n); }
+ Char_t GetBadNChannel(Int_t n) {
+ return fBadChannels->GetBadChannelN(fModule,n); }
+ Bool_t IsPChannelBad(Int_t n) {
+ return fBadChannels->GetBadChannelP(fModule,n)&1; }
+ Bool_t IsNChannelBad(Int_t n) {
+ return fBadChannels->GetBadChannelN(fModule,n)&1; }
+ //
virtual void SetNDetParam(Int_t npar) {
// set number of param
fNPar=npar;
}
virtual void GetDetParam(Double_t *dpar) const;
- virtual void SetSigmaSpread(Double_t p1, Double_t p2) {
- // Set sigmas of the charge spread function: Pside-Nside
- // square of (microns)
- fSigmaP=p1; fSigmaN=p2;
+ virtual void SetSigmaSpread(Double_t, Double_t) {
+ NotImplemented("SetSigmaSpread");}
+
+ virtual void SigmaSpread(Double_t &, Double_t &) const {
+ NotImplemented("SetSigmaSpread");}
+
+ void SetModule(Int_t mod){fModule = mod;}
+ void SetModuleIndex(Int_t modId){
+ fModule=modId-500; // temporary patch, 500 is n. of SPD+SDD modules
+ FillBadChipMap();
}
+ void SetKeVperADC(Double_t a=86.4/120.){fKeVperADC = a;}
+ Double_t ADCToKeV(Double_t adc) const {return adc*fKeVperADC;}
- virtual void SigmaSpread(Double_t &sP, Double_t &sN) const {
- // Get sigmas for the charge spread
- sP=fSigmaP; sN=fSigmaN;
- }
+ void SetSSDADCpereV(Double_t a=120./24888.9){fSSDADCpereV = a;}
+ Double_t GetSSDDEvToADC(Double_t eV) const {return eV*fSSDADCpereV;}
+ Int_t GetSSDIEvToADC(Double_t eV) const {
+ return ((Int_t) GetSSDDEvToADC(eV)); }
+
+
+ protected:
+
+ static const Int_t fgkChipsPerModule = 12; // Number of chips/module
+ static const Int_t fgkChannelsPerChip = 128; // Number of channels/chip
- virtual void SetThresholds(Double_t /* a */, Double_t /* b */)
- {NotImplemented("SetThresholds");}
- virtual void Thresholds(Double_t & /* a */, Double_t & /* b */) const
- {NotImplemented("Thresholds");}
-
- virtual void SetParamOptions(const char *opt1, const char *opt2) {((AliITSresponseSSD*)fResponse)->SetParamOptions(opt1,opt2);}
- virtual void GetParamOptions(char *opt1,char *opt2) const {((AliITSresponseSSD*)fResponse)->ParamOptions(opt1,opt2);}
- virtual void SetADCpereV(Double_t a=120./24888.9) {((AliITSresponseSSD*)fResponse)->SetADCpereV(a);}
- virtual Double_t GetDEvToADC(Double_t eV) const {return ((AliITSresponseSSD*)fResponse)->DEvToADC(eV);}
- virtual Int_t IEvToADC(Double_t eV) const {return ((AliITSresponseSSD*)fResponse)->IEvToADC(eV);}
-
- virtual void SetKeVperADC(Double_t a=86.4/120.0) {((AliITSresponseSSD*)fResponse)->SetKeVperADC(a);}
- virtual Double_t ADCToKeV(Double_t adc) const {return ((AliITSresponseSSD*)fResponse)->ADCToKeV(adc);}
-
- virtual Double_t GetCouplingPR() const {return ((AliITSresponseSSD*)fResponse)->GetCouplingPR();}
- virtual Double_t GetCouplingPL() const {return ((AliITSresponseSSD*)fResponse)->GetCouplingPL();}
- virtual Double_t GetCouplingNR() const {return ((AliITSresponseSSD*)fResponse)->GetCouplingNR();}
- virtual Double_t GetCouplingNL() const {return ((AliITSresponseSSD*)fResponse)->GetCouplingNL();}
- virtual void SetCouplings(Double_t pr, Double_t pl, Double_t nr, Double_t nl)
- { ((AliITSresponseSSD*)fResponse)->SetCouplings(pr,pl,nr,nl);}
-
- virtual Int_t GetZSThreshold() const {return ((AliITSresponseSSD*)fResponse)->GetZSThreshold();}
- virtual void SetZSThreshold(Int_t zsth)
- { ((AliITSresponseSSD*)fResponse)->SetZSThreshold(zsth);}
-
-protected:
- static const Double_t fgkNoiseNDefault; // default for fNoiseN
- static const Double_t fgkNoisePDefault; // default for fNoiseP
static const Int_t fgkNParDefault; // default for fNPar
- static const Double_t fgkSigmaPDefault; //default for fSigmaP
- static const Double_t fgkSigmaNDefault; //default for fSigmaP
+ Int_t fModule; //! module number (range 0 -> 1697)
+
Int_t fNPar; // Number of detector param
Double_t *fDetPar; //[fNPar] Array of parameters
- Double_t fNoiseP; // Noise on Pside
- Double_t fNoiseN; // Noise on Nside
- Double_t fSigmaP; // Sigma charge spread on Pside
- Double_t fSigmaN; // Sigma charge spread on Nside
-
- TArrayF fGainP; // Gain for P side channels
- TArrayF fGainN; // Gain for N side channels
-
- TArrayF fNoisP; // Noise for P side channels
- TArrayF fNoisN; // Noise for N side channels
+ AliITSNoiseSSDv2 *fNoise;
+ AliITSPedestalSSDv2 *fPedestal;
+ AliITSGainSSDv2 *fGain;
+ AliITSBadChannelsSSDv2 *fBadChannels;
- Float_t fNoisePThreshold; // need to decide if channel is noisy
- TArrayI fNoisyPChannelsList; // list of P side noisy channels
- Float_t fNoiseNThreshold; // need to decide if channel is noisy
- TArrayI fNoisyNChannelsList; // list of N side noisy channels
+ Bool_t fIsBad; // module is dead or alive ?
+ Bool_t fIsChipBad[fgkChipsPerModule]; // chip is dead or alive ?
- TArrayI fDeadNChannelsList; // list of P side dead channels
- TArrayI fDeadPChannelsList; // list of N side dead channels
+ Double_t fSSDADCpereV; // Constant to convert eV to ADC for SSD.
+ Double_t fKeVperADC; // Constant to convert ADC to keV
private:
AliITSCalibrationSSD(const AliITSCalibrationSSD &source); // copy constructor
AliITSCalibrationSSD& operator=(const AliITSCalibrationSSD &source); // ass. op.
- ClassDef(AliITSCalibrationSSD,1) //Response class for SSD
-};
+ ClassDef(AliITSCalibrationSSD,5) //Response class for SSD
+ };
#endif