/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /* $Id: AliADCalibData.cxx, */ #include <TMath.h> #include <TObjString.h> #include <TMap.h> #include <TH1F.h> #include <TH2F.h> #include "AliDCSValue.h" #include "AliCDBManager.h" #include "AliCDBEntry.h" #include "AliADDataDCS.h" #include "AliADCalibData.h" #include "AliADConst.h" #include "AliLog.h" ClassImp(AliADCalibData) //________________________________________________________________ AliADCalibData::AliADCalibData(): fLightYields(NULL), fPMGainsA(NULL), fPMGainsB(NULL) { // default constructor for(int t=0; t<16; t++) { fMeanHV[t] = 100.0; fWidthHV[t] = 0.0; fTimeOffset[t] = 0.0; fTimeGain[t] = 1.0; fDeadChannel[t]= kFALSE; fDiscriThr[t] = 2.5; } for(int t=0; t<32; t++) { fPedestal[t] = 0.0; fSigma[t] = 100.0; fADCmean[t] = 0.0; fADCsigma[t] = 0.0; } for(int i=0; i<kNCIUBoards ;i++) { fTimeResolution[i] = 25./256.; // Default time resolution fWidthResolution[i] = 25./64.; // Default time width resolution fMatchWindow[i] = 4; fSearchWindow[i] = 16; fTriggerCountOffset[i] = 3247; fRollOver[i] = 3563; } } //________________________________________________________________ void AliADCalibData::Reset() { } //________________________________________________________________ AliADCalibData::AliADCalibData(const char* name) : fLightYields(NULL), fPMGainsA(NULL), fPMGainsB(NULL) { // Constructor TString namst = "Calib_"; namst += name; SetName(namst.Data()); SetTitle(namst.Data()); for(int t=0; t<16; t++) { fMeanHV[t] = 100.0; fWidthHV[t] = 0.0; fTimeOffset[t] = 5.0; fTimeGain[t] = 1.0; fDeadChannel[t]= kFALSE; fDiscriThr[t] = 2.5; } for(int t=0; t<32; t++) { fPedestal[t] = 0.0; fSigma[t] = 0.0; fADCmean[t] = 0.0; fADCsigma[t] = 0.0; } for(int i=0; i<kNCIUBoards ;i++) { fTimeResolution[i] = 25./256.; // Default time resolution in ns / channel fWidthResolution[i] = 25./64.; // Default time width resolution in ns / channel fMatchWindow[i] = 4; fSearchWindow[i] = 16; fTriggerCountOffset[i] = 3247; fRollOver[i] = 3563; } } //________________________________________________________________ AliADCalibData::AliADCalibData(const AliADCalibData& calibda) : TNamed(calibda), fLightYields(NULL), fPMGainsA(NULL), fPMGainsB(NULL) { // copy constructor SetName(calibda.GetName()); SetTitle(calibda.GetName()); for(int t=0; t<32; t++) { fPedestal[t] = calibda.GetPedestal(t); fSigma[t] = calibda.GetSigma(t); fADCmean[t] = calibda.GetADCmean(t); fADCsigma[t] = calibda.GetADCsigma(t); } for(int t=0; t<16; t++) { fMeanHV[t] = calibda.GetMeanHV(t); fWidthHV[t] = calibda.GetWidthHV(t); fTimeOffset[t] = calibda.GetTimeOffset(t); fTimeGain[t] = calibda.GetTimeGain(t); fDeadChannel[t] = calibda.IsChannelDead(t); fDiscriThr[t] = calibda.GetDiscriThr(t); } for(int i=0; i<kNCIUBoards ;i++) { fTimeResolution[i] = calibda.GetTimeResolution(i); fWidthResolution[i] = calibda.GetWidthResolution(i); fMatchWindow[i] = calibda.GetMatchWindow(i); fSearchWindow[i] = calibda.GetSearchWindow(i); fTriggerCountOffset[i] = calibda.GetTriggerCountOffset(i); fRollOver[i] = calibda.GetRollOver(i); } } //________________________________________________________________ AliADCalibData &AliADCalibData::operator =(const AliADCalibData& calibda) { // assignment operator SetName(calibda.GetName()); SetTitle(calibda.GetName()); for(int t=0; t<32; t++) { fPedestal[t] = calibda.GetPedestal(t); fSigma[t] = calibda.GetSigma(t); fADCmean[t] = calibda.GetADCmean(t); fADCsigma[t] = calibda.GetADCsigma(t); } for(int t=0; t<16; t++) { fMeanHV[t] = calibda.GetMeanHV(t); fWidthHV[t] = calibda.GetWidthHV(t); fTimeOffset[t] = calibda.GetTimeOffset(t); fTimeGain[t] = calibda.GetTimeGain(t); fDeadChannel[t] = calibda.IsChannelDead(t); fDiscriThr[t] = calibda.GetDiscriThr(t); } for(int i=0; i<kNCIUBoards ;i++) { fTimeResolution[i] = calibda.GetTimeResolution(i); fWidthResolution[i] = calibda.GetWidthResolution(i); fMatchWindow[i] = calibda.GetMatchWindow(i); fSearchWindow[i] = calibda.GetSearchWindow(i); fTriggerCountOffset[i] = calibda.GetTriggerCountOffset(i); fRollOver[i] = calibda.GetRollOver(i); } return *this; } //________________________________________________________________ AliADCalibData::~AliADCalibData() { // destructor if (fLightYields) delete [] fLightYields; if (fPMGainsA) delete [] fPMGainsA; if (fPMGainsB) delete [] fPMGainsB; } //________________________________________________________________ Int_t AliADCalibData::GetBoardNumber(Int_t channel) { // Get FEE board number // from offline channel index if (channel >= 0 && channel < 8) return (0); if (channel >=8 && channel < 16) return (1); AliErrorClass(Form("Wrong channel index: %d",channel)); return -1; } //________________________________________________________________ Float_t AliADCalibData::GetLightYields(Int_t channel) { // Get the light yield efficiency // for a given channel if (!fLightYields) InitLightYields(); if (channel >= 0 && channel < 16) { return fLightYields[channel]; } AliError(Form("Wrong channel index: %d",channel)); return 0; } //________________________________________________________________ void AliADCalibData::InitLightYields() { // Initialize the light yield factors // Read from a separate OCDB entry if (fLightYields) return; AliCDBEntry *entry = AliCDBManager::Instance()->Get("VZERO/Calib/LightYields"); if (!entry) AliFatal("AD light yields are not found in OCDB !"); TH1F *yields = (TH1F*)entry->GetObject(); fLightYields = new Float_t[16]; for(Int_t i = 0 ; i < 16; ++i) { fLightYields[i] = yields->GetBinContent(i+1); } } //________________________________________________________________ void AliADCalibData::InitPMGains() { // Initialize the PM gain factors // Read from a separate OCDB entry if (fPMGainsA) return; AliCDBEntry *entry = AliCDBManager::Instance()->Get("VZERO/Calib/PMGains"); if (!entry) AliFatal("VZERO PM gains are not found in OCDB !"); TH2F *gains = (TH2F*)entry->GetObject(); fPMGainsA = new Float_t[16]; fPMGainsB = new Float_t[16]; for(Int_t i = 0 ; i < 16; ++i) { fPMGainsA[i] = gains->GetBinContent(i+1,1); fPMGainsB[i] = gains->GetBinContent(i+1,2); } } //________________________________________________________________ Float_t AliADCalibData::GetGain(Int_t channel) { // Computes the PM gains // Argument passed is the PM number (aliroot numbering) if (!fPMGainsA) InitPMGains(); // High Voltage retrieval from Calibration Data Base: Float_t hv = fMeanHV[channel]; Float_t gain = 0; if (hv>0) gain = TMath::Exp(fPMGainsA[channel]+fPMGainsB[channel]*TMath::Log(hv)); return gain; } //________________________________________________________________ Float_t AliADCalibData::GetCalibDiscriThr(Int_t channel, Bool_t scaled) { // The method returns actual TDC discri threshold // extracted from the data. // // In case scaled flag is set the threshold is scaled // so that to get 4.0 for a FEE threshold of 4.0. // In this way we avoid a change in the slewing correction // for the entire 2010 p-p data. // // The method is to be moved to OCDB object. Float_t thr = GetDiscriThr(channel); Float_t calThr = 0; if (thr <= 1.) calThr = 3.1; else if (thr >= 2.) calThr = (3.1+1.15*thr-1.7); else calThr = (3.1-0.3*thr+0.3*thr*thr); if (scaled) calThr *= 4./(3.1+1.15*4.-1.7); return calThr; } //_____________________________________________________________________________ void AliADCalibData::FillDCSData(AliADDataDCS * data){ // Set all parameters from the data get by the shuttle TMap * params = data->GetFEEParameters(); TIter iter(params); TObjString* aliasName; while (( aliasName = (TObjString*) iter.Next() )) { AliDCSValue* aValue = (AliDCSValue*) params->GetValue(aliasName); Int_t val; if(aValue) { val = aValue->GetInt(); AliInfo(Form("%s : %d",aliasName->String().Data(), val)); SetParameter(aliasName->String(),val); } } SetMeanHV(data->GetMeanHV()); SetWidthHV(data->GetWidthHV()); SetDeadMap(data->GetDeadMap()); } //_____________________________________________________________________________ void AliADCalibData::SetParameter(TString name, Int_t val){ // Set given parameter Int_t iBoard = -1; Int_t iChannel = -1; TSeqCollection* nameSplit = name.Tokenize("/"); TObjString * boardName = (TObjString *)nameSplit->At(2); sscanf(boardName->String().Data(),"CIU%d",&iBoard); TString paramName = ((TObjString *)nameSplit->At(3))->String(); Char_t channel[2] ; channel[1] = '\0'; channel[0] = paramName[paramName.Sizeof()-2]; sscanf(channel,"%d",&iChannel); if(name.Contains("TimeResolution")) SetTimeResolution((UShort_t) val,iBoard); else if(name.Contains("WidthResolution")) SetWidthResolution((UShort_t) val,iBoard); else if(name.Contains("MatchWindow")) SetMatchWindow((UInt_t) val,iBoard); else if(name.Contains("SearchWindow")) SetSearchWindow((UInt_t) val,iBoard); else if(name.Contains("TriggerCountOffset")) SetTriggerCountOffset((UInt_t) val,iBoard); else if(name.Contains("RollOver")) SetRollOver((UInt_t) val,iBoard); else if(name.Contains("DelayHit")) SetTimeOffset(0.01*(Float_t)val,iBoard,(iChannel-1)); else if(name.Contains("DiscriThr")) SetDiscriThr(((Float_t)val-1040.)/112.,iBoard,(iChannel-1)); else AliError(Form("No Setter found for FEE parameter : %s",name.Data())); // delete nameSplit; } //________________________________________________________________ void AliADCalibData::SetPedestal(const Float_t* Pedestal) { if(Pedestal) for(int t=0; t<32; t++) fPedestal[t] = Pedestal[t]; else for(int t=0; t<32; t++) fPedestal[t] = 0.0; } //________________________________________________________________ void AliADCalibData::SetSigma(const Float_t* Sigma) { if(Sigma) for(int t=0; t<32; t++) fSigma[t] = Sigma[t]; else for(int t=0; t<32; t++) fSigma[t] = 0.0; } //________________________________________________________________ void AliADCalibData::SetADCmean(const Float_t* ADCmean) { if(ADCmean) for(int t=0; t<32; t++) fADCmean[t] = ADCmean[t]; else for(int t=0; t<32; t++) fADCmean[t] = 0.0; } //________________________________________________________________ void AliADCalibData::SetADCsigma(const Float_t* ADCsigma) { if(ADCsigma) for(int t=0; t<32; t++) fADCsigma[t] = ADCsigma[t]; else for(int t=0; t<32; t++) fADCsigma[t] = 0.0; } //________________________________________________________________ void AliADCalibData::SetMeanHV(const Float_t* MeanHV) { if(MeanHV) for(int t=0; t<16; t++) fMeanHV[t] = MeanHV[t]; else for(int t=0; t<16; t++) fMeanHV[t] = 0.0; } //________________________________________________________________ void AliADCalibData::SetWidthHV(const Float_t* WidthHV) { if(WidthHV) for(int t=0; t<16; t++) fWidthHV[t] = WidthHV[t]; else for(int t=0; t<16; t++) fWidthHV[t] = 0.0; } //________________________________________________________________ void AliADCalibData::SetDeadMap(const Bool_t* deadMap) { if(deadMap) for(int t=0; t<16; t++) fDeadChannel[t] = deadMap[t]; else for(int t=0; t<16; t++) fDeadChannel[t] = kFALSE; } //________________________________________________________________ void AliADCalibData::SetTimeOffset(Float_t val, Int_t board, Int_t channel) { Int_t ch = AliADCalibData::GetOfflineChannelNumber(board,channel); if(ch >= 0){ fTimeOffset[ch]=val; AliInfo(Form("Time offset for channel %d set to %f",ch,fTimeOffset[ch])); } else AliError("Board/Channel numbers are not valid"); } //________________________________________________________________ void AliADCalibData::SetTimeOffset(const Float_t* TimeOffset) { if(TimeOffset) for(int t=0; t<16; t++) fTimeOffset[t] = TimeOffset[t]; else for(int t=0; t<16; t++) fTimeOffset[t] = 5.0; } //________________________________________________________________ void AliADCalibData::SetTimeGain(const Float_t* TimeGain) { if(TimeGain) for(int t=0; t<16; t++) fTimeGain[t] = TimeGain[t]; else for(int t=0; t<16; t++) fTimeGain[t] = 0.0; } //________________________________________________________________ void AliADCalibData::SetTimeResolution(UShort_t *resols){ // Set Time Resolution of the TDC if(resols) for(int t=0; t<kNCIUBoards; t++) SetTimeResolution(resols[t],t); else AliError("Time Resolution not defined."); } //________________________________________________________________ void AliADCalibData::SetTimeResolution(UShort_t resol, Int_t board) { // Set Time Resolution of the TDC if((board>=0) && (board<kNCIUBoards)) { switch(resol){ case 0: fTimeResolution[board] = 25./256.; break; case 1: fTimeResolution[board] = 25./128.; break; case 2: fTimeResolution[board] = 25./64.; break; case 3: fTimeResolution[board] = 25./32.; break; case 4: fTimeResolution[board] = 25./16.; break; case 5: fTimeResolution[board] = 25./8.; break; case 6: fTimeResolution[board] = 6.25; break; case 7: fTimeResolution[board] = 12.5; break; } AliInfo(Form("Time Resolution of board %d set to %f",board,fTimeResolution[board])); } else AliError(Form("Board %d is not valid",board)); } //________________________________________________________________ void AliADCalibData::SetWidthResolution(UShort_t *resols){ // Set Time Width Resolution of the TDC if(resols) for(int t=0; t<kNCIUBoards; t++) SetWidthResolution(resols[t],t); else AliError("Width Resolution not defined."); } //________________________________________________________________ void AliADCalibData::SetWidthResolution(UShort_t resol, Int_t board) { // Set Time Width Resolution of the TDC if((board>=0) && (board<kNCIUBoards)){ switch(resol){ case 0: fWidthResolution[board] = 25./256.; break; case 1: fWidthResolution[board] = 25./128.; break; case 2: fWidthResolution[board] = 25./64.; break; case 3: fWidthResolution[board] = 25./32.; break; case 4: fWidthResolution[board] = 25./16.; break; case 5: fWidthResolution[board] = 25./8.; break; case 6: fWidthResolution[board] = 6.25; break; case 7: fWidthResolution[board] = 12.5; break; case 8: fWidthResolution[board] = 25.; break; case 9: fWidthResolution[board] = 50.; break; case 10: fWidthResolution[board] = 100.; break; case 11: fWidthResolution[board] = 200.; break; case 12: fWidthResolution[board] = 400.; break; case 13: fWidthResolution[board] = 800.; break; } AliInfo(Form("Width Resolution of board %d set to %f",board,fWidthResolution[board])); }else AliError(Form("Board %d is not valid",board)); } //________________________________________________________________ void AliADCalibData::SetMatchWindow(UInt_t *windows) { // Set Match window of the HPTDC // The units are 25ns if(windows) for(Int_t b=0; b<kNCIUBoards; b++) SetMatchWindow(windows[b],b); else AliError("Match windows not defined."); } //________________________________________________________________ void AliADCalibData::SetMatchWindow(UInt_t window, Int_t board) { // Set Match window of the HPTDC // The units are 25ns if((board>=0) && (board<kNCIUBoards)){ fMatchWindow[board] = window; AliInfo(Form("Match window of board %d set to %d",board,fMatchWindow[board])); } else AliError(Form("Board %d is not valid",board)); } //________________________________________________________________ void AliADCalibData::SetSearchWindow(UInt_t *windows) { // Set Search window of the HPTDC // The units are 25ns if(windows) for(Int_t b=0; b<kNCIUBoards; b++) SetSearchWindow(windows[b],b); else AliError("Search windows not defined."); } //________________________________________________________________ void AliADCalibData::SetSearchWindow(UInt_t window, Int_t board) { // Set Search window of the HPTDC // The units are 25ns if((board>=0) && (board<kNCIUBoards)){ fSearchWindow[board] = window; AliInfo(Form("Search window of board %d set to %d",board,fSearchWindow[board])); } else AliError(Form("Board %d is not valid",board)); } //________________________________________________________________ void AliADCalibData::SetTriggerCountOffset(UInt_t *offsets) { // Set trigger-count offset of the HPTDC // The units are 25ns if(offsets) for(Int_t b=0; b<kNCIUBoards; b++) SetTriggerCountOffset(offsets[b],b); else AliError("Trigger count offsets not defined."); } //________________________________________________________________ void AliADCalibData::SetTriggerCountOffset(UInt_t offset, Int_t board) { // Set trigger-count offsets of the HPTDC // The units are 25ns if((board>=0) && (board<kNCIUBoards)){ fTriggerCountOffset[board] = offset; AliInfo(Form("Trigger-count offset of board %d set to %d",board,fTriggerCountOffset[board])); } else AliError(Form("Board %d is not valid",board)); } //________________________________________________________________ void AliADCalibData::SetRollOver(UInt_t *offsets) { // Set Roll-over of the HPTDC // The units are 25ns if(offsets) for(Int_t b=0; b<kNCIUBoards; b++) SetRollOver(offsets[b],b); else AliError("Roll-over offsets not defined."); } //________________________________________________________________ void AliADCalibData::SetRollOver(UInt_t offset, Int_t board) { // Set Roll-over of the HPTDC // The units are 25ns if((board>=0) && (board<kNCIUBoards)){ fRollOver[board] = offset; AliInfo(Form("Roll-over offset of board %d set to %d",board,fRollOver[board])); } else AliError(Form("Board %d is not valid",board)); } //________________________________________________________________ void AliADCalibData::SetDiscriThr(Float_t thr, Int_t board, Int_t channel) { // Set the TDC discriminator // threshold values expressed in units of ADC Int_t ch = AliADCalibData::GetOfflineChannelNumber(board,channel); if(ch >= 0){ if (thr > 0) { fDiscriThr[ch]=thr; AliInfo(Form("Discriminator threshold for channel %d set to %f",ch,fDiscriThr[ch])); } else { AliWarning(Form("Ignore wrong threshold value (%f) for channel %d !",thr,ch)); } } else AliError("Board/Channel numbers are not valid"); } //________________________________________________________________ void AliADCalibData::SetDiscriThr(const Float_t* thresholds) { // Set the TDC discriminator // threshold values expressed in units of ADC if(thresholds) for(int t=0; t<16; t++) fDiscriThr[t] = thresholds[t]; else for(int t=0; t<16; t++) fDiscriThr[t] = 2.5; } //________________________________________________________________ Int_t AliADCalibData::GetOfflineChannelNumber(Int_t board, Int_t channel) { // Get the offline channel number from // the FEE board and channel indexes if (board < 0 || board >= 2) { AliErrorClass(Form("Wrong FEE board number: %d",board)); return -1; } if (channel < 0 || channel >= 8) { AliErrorClass(Form("Wrong FEE channel number: %d",channel)); return -1; } Int_t offCh = (board+1)*channel; return offCh; } //________________________________________________________________ Int_t AliADCalibData::GetFEEChannelNumber(Int_t channel) { // Get FEE channel number // from offline channel index if (channel >= 0 && channel < 16) return ((channel % 8)); AliErrorClass(Form("Wrong channel index: %d",channel)); return -1; }
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