// //
/////////////////////////////////////////////////////////////////////////////
+#include <TMath.h>
+
#include "AliVZEROCalibData.h"
ClassImp(AliVZEROCalibData)
//________________________________________________________________
AliVZEROCalibData::AliVZEROCalibData()
{
-
+ //
+}
+
+//________________________________________________________________
+void AliVZEROCalibData::Reset()
+{
+ // reset
}
//________________________________________________________________
for(int t=0; t<128; t++) {
fPedestal[t] = calibda.GetPedestal(t);
fSigma[t] = calibda.GetSigma(t);
+ fADCmean[t] = calibda.GetADCmean(t);
+ fADCsigma[t] = calibda.GetADCsigma(t);
fGain[t] = calibda.GetGain(t); }
for(int t=0; t<64; t++) {
+ fMeanHV[t] = calibda.GetMeanHV(t);
+ fWidthHV[t] = calibda.GetWidthHV(t);
fTimeOffset[t] = calibda.GetTimeOffset(t);
- fTimeGain[t] = calibda.GetTimeGain(t); }
+ fTimeGain[t] = calibda.GetTimeGain(t); }
}
for(int t=0; t<128; t++) {
fPedestal[t] = calibda.GetPedestal(t);
fSigma[t] = calibda.GetSigma(t);
+ fADCmean[t] = calibda.GetADCmean(t);
+ fADCsigma[t] = calibda.GetADCsigma(t);
fGain[t] = calibda.GetGain(t); }
- for(int t=0; t<64; t++) {
+ for(int t=0; t<64; t++) {
+ fMeanHV[t] = calibda.GetMeanHV(t);
+ fWidthHV[t] = calibda.GetWidthHV(t);
fTimeOffset[t] = calibda.GetTimeOffset(t);
- fTimeGain[t] = calibda.GetTimeGain(t); }
-
+ fTimeGain[t] = calibda.GetTimeGain(t); }
+
return *this;
}
//________________________________________________________________
AliVZEROCalibData::~AliVZEROCalibData()
{
-
+ // destructor
}
-
-
//________________________________________________________________
void AliVZEROCalibData::SetPedestal(Float_t* Pedestal)
{
else for(int t=0; t<128; t++) fSigma[t] = 0.0;
}
+//________________________________________________________________
+void AliVZEROCalibData::SetADCmean(Float_t* ADCmean)
+{
+ if(ADCmean) for(int t=0; t<128; t++) fADCmean[t] = ADCmean[t];
+ else for(int t=0; t<128; t++) fADCmean[t] = 0.0;
+}
+
+//________________________________________________________________
+void AliVZEROCalibData::SetADCsigma(Float_t* ADCsigma)
+{
+ if(ADCsigma) for(int t=0; t<128; t++) fADCsigma[t] = ADCsigma[t];
+ else for(int t=0; t<128; t++) fADCsigma[t] = 0.0;
+}
+
+//________________________________________________________________
+void AliVZEROCalibData::SetMeanHV(Float_t* MeanHV)
+{
+ if(MeanHV) for(int t=0; t<64; t++) fMeanHV[t] = MeanHV[t];
+ else for(int t=0; t<64; t++) fMeanHV[t] = 0.0;
+}
+
+//________________________________________________________________
+void AliVZEROCalibData::SetWidthHV(Float_t* WidthHV)
+{
+ if(WidthHV) for(int t=0; t<64; t++) fWidthHV[t] = WidthHV[t];
+ else for(int t=0; t<64; t++) fWidthHV[t] = 0.0;
+}
+
//________________________________________________________________
void AliVZEROCalibData::SetGain(Float_t* Gain)
{
if(TimeGain) for(int t=0; t<64; t++) fTimeGain[t] = TimeGain[t];
else for(int t=0; t<64; t++) fTimeGain[t] = 0.0;
}
+
+//_____________________________________________________________________________
+Float_t AliVZEROCalibData::GetMIPperADC(Int_t channel) const {
+
+ // Computes the MIP conversion factor - MIP per ADC channel -
+ // Argument passed is the PM number (aliroot numbering)
+
+ Float_t P0[64] = {
+ 7.094891, 7.124938, 7.089708, 7.098169, 7.094482, 7.147250, 7.170978, 7.183392,
+ 7.145760, 7.148096, 7.153840, 7.143544, 7.186069, 7.194580, 7.203516, 7.195176,
+ 7.188333, 7.198607, 7.209412, 7.226565, 7.221695, 7.205132, 7.191238, 7.227724,
+ 7.232810, 7.252655, 7.230309, 7.273518, 7.273518, 7.242969, 7.252859, 7.252655,
+ 7.026802, 7.079913, 7.134147, 7.092387, 7.079561, 7.072848, 7.123192, 7.003141,
+ 7.024667, 7.124784, 7.123442, 7.129744, 7.110671, 7.143031, 7.139439, 7.178109,
+ 7.247803, 7.139396, 7.293809, 7.094454, 6.992198, 7.206448, 7.244765, 7.056197,
+ 7.263595, 7.138569, 7.089582, 7.215683, 7.266183, 7.165123, 7.243276, 7.235135 };
+ Float_t P1[64] = {
+ 0.135569, 0.146405, 0.142425, 0.144278, 0.142307, 0.141648, 0.128477, 0.138239,
+ 0.144173, 0.143419, 0.143572, 0.144482, 0.138024, 0.136542, 0.135955, 0.138537,
+ 0.148521, 0.141999, 0.139627, 0.130014, 0.134970, 0.135635, 0.139094, 0.140634,
+ 0.137971, 0.142080, 0.142793, 0.142778, 0.142778, 0.146045, 0.139133, 0.142080,
+ 0.144121, 0.142311, 0.136564, 0.142686, 0.138792, 0.166285, 0.136387, 0.155391,
+ 0.176082, 0.140408, 0.164738, 0.144270, 0.142766, 0.147486, 0.141951, 0.138012,
+ 0.132394, 0.142849, 0.140477, 0.144592, 0.141558, 0.157646, 0.143758, 0.173385,
+ 0.146489, 0.143279, 0.145230, 0.147203, 0.147333, 0.144979, 0.148597, 0.138985 };
+
+ // High Voltage retrieval from Calibration Data Base:
+ Float_t HV = fMeanHV[channel];
+ Float_t MIP = 0.5/TMath::Exp((TMath::Log(HV) - P0[channel] )/P1[channel]);
+ return MIP;
+
+}
+
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