[u/mrichter/AliRoot.git] / HMPID / AliHMPIDPreprocessor.cxx

#include "AliHMPIDPreprocessor.h" //header no includes
#include "AliHMPIDDigit.h"        //ProcPed()
#include <Riostream.h>            //ProcPed()  
#include <AliLog.h>               //all
#include <AliCDBMetaData.h>       //ProcPed(), ProcDcs()
#include <AliDCSValue.h>          //ProcDcs()
#include <TObjString.h>           //ProcDcs(), ProcPed()
#include <TTimeStamp.h>           //Initialize()
#include <TF1.h>                  //Process()
#include <TF2.h>                  //Process()
#include <TGraph.h>               //Process()
#include <TMatrix.h>              //ProcPed()
#include <TList.h>                //ProcPed()
#include <TSystem.h>              //ProcPed()
//.
// HMPID Preprocessor base class
//.
//.
//.
ClassImp(AliHMPIDPreprocessor)

//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
void AliHMPIDPreprocessor::Initialize(Int_t run, UInt_t startTime,UInt_t endTime)
{
  AliPreprocessor::Initialize(run, startTime, endTime);
  
  AliInfo(Form("HMPID started for Run %d \n\tStartTime %s \n\t  EndTime %s", run,TTimeStamp(startTime).AsString(),TTimeStamp(endTime).AsString()));

}
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
UInt_t AliHMPIDPreprocessor::Process(TMap* pMap)
{
// Process all information from DCS and DAQ
// Arguments: pMap- map of DCS aliases
// Returns: 0 on success or 1 on error (opposite to Store!)
  
  Log("HMPID - Process in Preprocessor started");
  if(! pMap) {Log(" - Not map of DCS aliases for HMPID - ");return 1;}   
  
  TString runType = GetRunType();
  Log(Form(" AliHMPIDPreprocessor: RunType is %s",runType.Data()));
  Bool_t result1,result2;
  if (runType == "PEDESTAL_RUN"){
    result1 = ProcPed(); return !result1;
  } else if ( runType == "PHYSICS" ){
    result1 = ProcPed(); 
    result2 = ProcDcs(pMap); return !(result1&&result2);
  } else {
    Log("HMPID - Nothing to do with preprocessor for HMPID, bye!");
  return kFALSE;
  }
  
}//Process()
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Bool_t AliHMPIDPreprocessor::ProcDcs(TMap* pMap)
{
// Process: 1. inlet and outlet C6F14 temperature, stores TObjArray of 21 TF1, where TF1 is Nmean=f(t), one per radiator
//          2. CH4 pressure and HV                 stores TObjArray of 7 TF1 where TF1 is thr=f(t), one per chamber
// Arguments: pDcsMap - map of structure "alias name" - TObjArray of AliDCSValue
// Assume that: HV is the same during the run for a given chamber, different chambers might have different HV
//              P=f(t), different for different chambers
// Returns: kTRUE on success  

  Bool_t stDcsStore=kFALSE;

  TF2 idx("RidxC4F14","sqrt(1+0.554*(1239.84/x)^2/((1239.84/x)^2-5796)-0.0005*(y-20))",5.5 ,8.5 ,0  ,50);  //N=f(Ephot,T) [eV,grad C] DiMauro mail
  
// Qthr=f(HV,P) [V,mBar]  logA0=k*HV+b is taken from p. 64 TDR plot 2.59 for PC32 
//                           A0=f(P) is taken from DiMauro mail
// Qthr is estimated as 3*A0
  TF2 thr("RthrCH4"  ,"3*10^(3.01e-3*x-4.72)+170745848*exp(-y*0.0162012)"             ,2000,3000,900,1200); 
  
  TObjArray arTmean(21);       arTmean.SetOwner(kTRUE);     //21 Tmean=f(time) one per radiator
  TObjArray arPress(7);        arPress.SetOwner(kTRUE);     //7  Press=f(time) one pre chamber
  TObjArray arNmean(21);       arNmean.SetOwner(kTRUE);     //21 Nmean=f(time) one per radiator
  TObjArray arQthre(7);        arQthre.SetOwner(kTRUE);     //7  Qthre=f(time) one pre chamber
  TObjArray arUserCut(7);    arUserCut.SetOwner(kTRUE);     //7  user cut in number of sigmas
  
  AliDCSValue *pVal; Int_t cnt=0;
    
  for(Int_t iCh=0;iCh<7;iCh++){                   
// evaluate High Voltage
//    TObjArray *pHV=(TObjArray*)pMap->GetValue(Form("HMP_DET/HMP_MP%i/HMP_MP%i_PW/HMP_MP%i_SEC0/HMP_MP%i_SEC0_HV.actual.vMon",iCh,iCh,iCh,iCh)); //HV
// evaluate Pressure
    TObjArray *pP =(TObjArray*)pMap->GetValue(Form("HMP_DET/HMP_MP%i/HMP_MP%i_GAS/HMP_MP%i_GAS_PMWC.actual.value"           ,iCh,iCh,iCh));    TIter nextP(pP);
    TGraph *pGrP=new TGraph; cnt=0; 
    while((pVal=(AliDCSValue*)nextP())) pGrP->SetPoint(cnt++,pVal->GetTimeStamp(),pVal->GetFloat());            //P
    if( cnt!=0) pGrP->Fit(new TF1(Form("P%i",iCh),"1005+x*[0]",fStartTime,fEndTime),"Q");                       //clm: if no DCS map entry don't fit
    delete pGrP;   
// evaluate Qthre
    arQthre.AddAt(new TF1(Form("HMP_Qthre%i",iCh),"100",fStartTime,fEndTime),iCh);
// evaluate UserCut
    TObject *pUserCut = new TObject();pUserCut->SetUniqueID(1);
    arUserCut.AddAt(pUserCut,iCh);    
// evaluate Temperatures    
    for(Int_t iRad=0;iRad<3;iRad++){
      TObjArray *pT1=(TObjArray*)pMap->GetValue(Form("HMP_DET/HMP_MP%i/HMP_MP%i_LIQ_LOOP.actual.sensors.Rad%iIn_Temp",iCh,iCh,iRad));  TIter nextT1(pT1);//Tin
      TObjArray *pT2=(TObjArray*)pMap->GetValue(Form("HMP_DET/HMP_MP%i/HMP_MP%i_LIQ_LOOP.actual.sensors.Rad%iOut_Temp",iCh,iCh,iRad)); TIter nextT2(pT2);//Tout      
      
      TGraph *pGrT1=new TGraph; cnt=0;  while((pVal=(AliDCSValue*)nextT1())) pGrT1->SetPoint(cnt++,pVal->GetTimeStamp(),pVal->GetFloat()); //T inlet
      if(cnt!=0) pGrT1->Fit(new TF1(Form("Tin%i%i",iCh,iRad),"[0]+[1]*x+[2]*sin([3]*x)",fStartTime,fEndTime),"Q");       //fit Tin graph -- clm: if DCS entry
      
      TGraph *pGrT2=new TGraph; cnt=0;  while((pVal=(AliDCSValue*)nextT2())) pGrT2->SetPoint(cnt++,pVal->GetTimeStamp(),pVal->GetFloat()); //T outlet 
      if(cnt!=0) pGrT2->Fit(new TF1(Form("Tou%i%i",iCh,iRad),"[0]+[1]*x+[2]*sin([3]*x)",fStartTime,fEndTime),"Q");       //fit Tout graph -- clm: if DCS entry
            
      delete pGrT1;  delete pGrT2;
	
	    
//      arTmean.Add(pRadTempF);  
// evaluate Mean Refractive Index
      arNmean.AddAt(new TF1(Form("HMP_Nmean%i-%i",iCh,iRad),"1.292",fStartTime,fEndTime),3*iCh+iRad); //Nmean=f(t)
    }//radiators loop
  }//chambers loop
  
  AliCDBMetaData metaData; 
  metaData.SetBeamPeriod(0); 
  metaData.SetResponsible("AliHMPIDPreprocessor"); 
  metaData.SetComment("SIMULATED");

  stDcsStore =   Store("Calib","Qthre",&arQthre,&metaData,0,kTRUE) && 
                 Store("Calib","Nmean",&arNmean,&metaData,0,kTRUE) &&
                 Store("Calib","UserCut",&arUserCut,&metaData,0,kTRUE);
  if(!stDcsStore) {
    Log("HMPID - failure to store DCS data results in OCDB");    
  }
  return stDcsStore;
}//Process()
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Bool_t AliHMPIDPreprocessor::ProcPed()
{
// Process pedestal files and create 7 M(padx,pady)=sigma, one for each chamber
// Arguments:
//   Returns: kTRUE on success
  
  Bool_t stPedStore=kFALSE;

  TObjArray aDaqSig(7); aDaqSig.SetOwner(kTRUE); for(Int_t i=0;i<7;i++) aDaqSig.AddAt(new TMatrix(160,144),i); //TObjArray of 7 TMatrixF, m(padx,pady)=sigma
  
  TList *pLdc=GetFileSources(kDAQ,"pedestals"); //get list of LDC names containing id "pedestals"
  Log(Form("HMPID - Pedestal files to be read --> %i LDCs for HMPID",pLdc->GetEntries()));
  
  for(Int_t i=0;i<pLdc->GetEntries();i++)//lists of LDCs
    gSystem->Exec(Form("tar xf %s",GetFile(kDAQ,"pedestals",((TObjString*)pLdc->At(i))->GetName()))); //untar pedestal files from current LDC
  
  AliHMPIDDigit dig;
  Int_t nSigCut,r,d,a,hard;  Float_t mean,sigma;
  
  for(Int_t ddl=0;ddl<14;ddl++){  
    ifstream infile(Form("HmpidPedDdl%02i.txt",ddl));
    if(!infile.is_open()) {Log("No pedestal file found for HMPID,bye!");return kFALSE;}
    TMatrix *pM=(TMatrixF*)aDaqSig.At(ddl/2);
    infile>>nSigCut; pM->SetUniqueID(nSigCut); //n. of pedestal distribution sigmas used to create zero suppresion table
    while(!infile.eof()){
      infile>>dec>>r>>d>>a>>mean>>sigma>>hex>>hard;      
      dig.Raw(ddl,r,d,a);
      (*pM)(dig.PadChX(),dig.PadChY()) = sigma;
    }
    infile.close();
    Log(Form("Pedestal file for DDL %i read successfully",ddl));
  }
  
  AliCDBMetaData metaData; 
  metaData.SetBeamPeriod(0); 
  metaData.SetResponsible("AliHMPIDPreprocessor"); 
  metaData.SetComment("SIMULATED");
  
  stPedStore = Store("Calib","DaqSig",&aDaqSig,&metaData,0,kTRUE);
  
  if(!stPedStore) {
    Log("HMPID - failure to store PEDESTAL data results in OCDB");    
  }
  return stPedStore;
  
}//ProcPed()  
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Double_t ProcTrans()
{
// Process transparency monitoring data and calculates Emean  
  Double_t eMean=6.67786;     //mean energy of photon defined  by transperancy window
  return eMean;
}   
//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Commit	Line	Data
56d2de52	1	#include "AliHMPIDPreprocessor.h" //header no includes
	2	#include "AliHMPIDDigit.h" //ProcPed()
	3	#include <Riostream.h> //ProcPed()
ad712d2e	4	#include <AliLog.h> //all
56d2de52	5	#include <AliCDBMetaData.h> //ProcPed(), ProcDcs()
	6	#include <AliDCSValue.h> //ProcDcs()
	7	#include <TObjString.h> //ProcDcs(), ProcPed()
ad712d2e	8	#include <TTimeStamp.h> //Initialize()
56d2de52	9	#include <TF1.h> //Process()
	10	#include <TF2.h> //Process()
	11	#include <TGraph.h> //Process()
	12	#include <TMatrix.h> //ProcPed()
	13	#include <TList.h> //ProcPed()
	14	#include <TSystem.h> //ProcPed()
423554a3	15	//.
	16	// HMPID Preprocessor base class
	17	//.
	18	//.
	19	//.
d3da6dc4	20	ClassImp(AliHMPIDPreprocessor)
	21
	22	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
	23	void AliHMPIDPreprocessor::Initialize(Int_t run, UInt_t startTime,UInt_t endTime)
	24	{
	25	AliPreprocessor::Initialize(run, startTime, endTime);
ad712d2e	26
	27	AliInfo(Form("HMPID started for Run %d \n\tStartTime %s \n\t EndTime %s", run,TTimeStamp(startTime).AsString(),TTimeStamp(endTime).AsString()));
	28
d3da6dc4	29	}
d3da6dc4	30	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
abb5f786	31	UInt_t AliHMPIDPreprocessor::Process(TMap* pMap)
d3da6dc4	32	{
56d2de52	33	// Process all information from DCS and DAQ
56d2de52	34	// Arguments: pMap- map of DCS aliases
ad712d2e	35	// Returns: 0 on success or 1 on error (opposite to Store!)
	36
	37	Log("HMPID - Process in Preprocessor started");
	38	if(! pMap) {Log(" - Not map of DCS aliases for HMPID - ");return 1;}
9cc1a411	39
9cc1a411	40	TString runType = GetRunType();
ad712d2e	41	Log(Form(" AliHMPIDPreprocessor: RunType is %s",runType.Data()));
9cc1a411	42	Bool_t result1,result2;
9cc1a411	43	if (runType == "PEDESTAL_RUN"){
ad712d2e	44	result1 = ProcPed(); return !result1;
9cc1a411	45	} else if ( runType == "PHYSICS" ){
9cc1a411	46	result1 = ProcPed();
ad712d2e	47	result2 = ProcDcs(pMap); return !(result1&&result2);
9cc1a411	48	} else {
ad712d2e	49	Log("HMPID - Nothing to do with preprocessor for HMPID, bye!");
9cc1a411	50	return kFALSE;
	51	}
	52
56d2de52	53	}//Process()
	54	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
	55	Bool_t AliHMPIDPreprocessor::ProcDcs(TMap* pMap)
	56	{
abb5f786	57	// Process: 1. inlet and outlet C6F14 temperature, stores TObjArray of 21 TF1, where TF1 is Nmean=f(t), one per radiator
	58	// 2. CH4 pressure and HV stores TObjArray of 7 TF1 where TF1 is thr=f(t), one per chamber
	59	// Arguments: pDcsMap - map of structure "alias name" - TObjArray of AliDCSValue
	60	// Assume that: HV is the same during the run for a given chamber, different chambers might have different HV
a0e5c1b9	61	// P=f(t), different for different chambers
56d2de52	62	// Returns: kTRUE on success
d3da6dc4	63
ad712d2e	64	Bool_t stDcsStore=kFALSE;
ad712d2e	65
abb5f786	66	TF2 idx("RidxC4F14","sqrt(1+0.554(1239.84/x)^2/((1239.84/x)^2-5796)-0.0005(y-20))",5.5 ,8.5 ,0 ,50); //N=f(Ephot,T) [eV,grad C] DiMauro mail
d3da6dc4	67
56d2de52	68	// Qthr=f(HV,P) [V,mBar] logA0=k*HV+b is taken from p. 64 TDR plot 2.59 for PC32
	69	// A0=f(P) is taken from DiMauro mail
	70	// Qthr is estimated as 3*A0
	71	TF2 thr("RthrCH4" ,"310^(3.01e-3x-4.72)+170745848exp(-y0.0162012)" ,2000,3000,900,1200);
	72
9cc1a411	73	TObjArray arTmean(21); arTmean.SetOwner(kTRUE); //21 Tmean=f(time) one per radiator
	74	TObjArray arPress(7); arPress.SetOwner(kTRUE); //7 Press=f(time) one pre chamber
	75	TObjArray arNmean(21); arNmean.SetOwner(kTRUE); //21 Nmean=f(time) one per radiator
	76	TObjArray arQthre(7); arQthre.SetOwner(kTRUE); //7 Qthre=f(time) one pre chamber
	77	TObjArray arUserCut(7); arUserCut.SetOwner(kTRUE); //7 user cut in number of sigmas
d3da6dc4	78
56d2de52	79	AliDCSValue *pVal; Int_t cnt=0;
abb5f786	80
56d2de52	81	for(Int_t iCh=0;iCh<7;iCh++){
ad712d2e	82	// evaluate High Voltage
56d2de52	83	// TObjArray pHV=(TObjArray)pMap->GetValue(Form("HMP_DET/HMP_MP%i/HMP_MP%i_PW/HMP_MP%i_SEC0/HMP_MP%i_SEC0_HV.actual.vMon",iCh,iCh,iCh,iCh)); //HV
ad712d2e	84	// evaluate Pressure
56d2de52	85	TObjArray pP =(TObjArray)pMap->GetValue(Form("HMP_DET/HMP_MP%i/HMP_MP%i_GAS/HMP_MP%i_GAS_PMWC.actual.value" ,iCh,iCh,iCh)); TIter nextP(pP);
43724042	86	TGraph *pGrP=new TGraph; cnt=0;
	87	while((pVal=(AliDCSValue*)nextP())) pGrP->SetPoint(cnt++,pVal->GetTimeStamp(),pVal->GetFloat()); //P
	88	if( cnt!=0) pGrP->Fit(new TF1(Form("P%i",iCh),"1005+x*[0]",fStartTime,fEndTime),"Q"); //clm: if no DCS map entry don't fit
	89	delete pGrP;
ad712d2e	90	// evaluate Qthre
9cc1a411	91	arQthre.AddAt(new TF1(Form("HMP_Qthre%i",iCh),"100",fStartTime,fEndTime),iCh);
ad712d2e	92	// evaluate UserCut
9cc1a411	93	TObject *pUserCut = new TObject();pUserCut->SetUniqueID(1);
9cc1a411	94	arUserCut.AddAt(pUserCut,iCh);
ad712d2e	95	// evaluate Temperatures
d3da6dc4	96	for(Int_t iRad=0;iRad<3;iRad++){
56d2de52	97	TObjArray pT1=(TObjArray)pMap->GetValue(Form("HMP_DET/HMP_MP%i/HMP_MP%i_LIQ_LOOP.actual.sensors.Rad%iIn_Temp",iCh,iCh,iRad)); TIter nextT1(pT1);//Tin
56d2de52	98	TObjArray pT2=(TObjArray)pMap->GetValue(Form("HMP_DET/HMP_MP%i/HMP_MP%i_LIQ_LOOP.actual.sensors.Rad%iOut_Temp",iCh,iCh,iRad)); TIter nextT2(pT2);//Tout
43724042	99
56d2de52	100	TGraph pGrT1=new TGraph; cnt=0; while((pVal=(AliDCSValue)nextT1())) pGrT1->SetPoint(cnt++,pVal->GetTimeStamp(),pVal->GetFloat()); //T inlet
43724042	101	if(cnt!=0) pGrT1->Fit(new TF1(Form("Tin%i%i",iCh,iRad),"[0]+[1]x+[2]sin([3]*x)",fStartTime,fEndTime),"Q"); //fit Tin graph -- clm: if DCS entry
43724042	102
56d2de52	103	TGraph pGrT2=new TGraph; cnt=0; while((pVal=(AliDCSValue)nextT2())) pGrT2->SetPoint(cnt++,pVal->GetTimeStamp(),pVal->GetFloat()); //T outlet
43724042	104	if(cnt!=0) pGrT2->Fit(new TF1(Form("Tou%i%i",iCh,iRad),"[0]+[1]x+[2]sin([3]*x)",fStartTime,fEndTime),"Q"); //fit Tout graph -- clm: if DCS entry
56d2de52	105
43724042	106	delete pGrT1; delete pGrT2;
	107
	108
abb5f786	109	// arTmean.Add(pRadTempF);
ad712d2e	110	// evaluate Mean Refractive Index
56d2de52	111	arNmean.AddAt(new TF1(Form("HMP_Nmean%i-%i",iCh,iRad),"1.292",fStartTime,fEndTime),3*iCh+iRad); //Nmean=f(t)
d3da6dc4	112	}//radiators loop
	113	}//chambers loop
	114
ad712d2e	115	AliCDBMetaData metaData;
	116	metaData.SetBeamPeriod(0);
	117	metaData.SetResponsible("AliHMPIDPreprocessor");
	118	metaData.SetComment("SIMULATED");
	119
	120	stDcsStore = Store("Calib","Qthre",&arQthre,&metaData,0,kTRUE) &&
	121	Store("Calib","Nmean",&arNmean,&metaData,0,kTRUE) &&
	122	Store("Calib","UserCut",&arUserCut,&metaData,0,kTRUE);
	123	if(!stDcsStore) {
	124	Log("HMPID - failure to store DCS data results in OCDB");
	125	}
	126	return stDcsStore;
d3da6dc4	127	}//Process()
d3da6dc4	128	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
56d2de52	129	Bool_t AliHMPIDPreprocessor::ProcPed()
	130	{
	131	// Process pedestal files and create 7 M(padx,pady)=sigma, one for each chamber
	132	// Arguments:
ad712d2e	133	// Returns: kTRUE on success
	134
	135	Bool_t stPedStore=kFALSE;
	136
56d2de52	137	TObjArray aDaqSig(7); aDaqSig.SetOwner(kTRUE); for(Int_t i=0;i<7;i++) aDaqSig.AddAt(new TMatrix(160,144),i); //TObjArray of 7 TMatrixF, m(padx,pady)=sigma
fefe77d6	138
56d2de52	139	TList *pLdc=GetFileSources(kDAQ,"pedestals"); //get list of LDC names containing id "pedestals"
ad712d2e	140	Log(Form("HMPID - Pedestal files to be read --> %i LDCs for HMPID",pLdc->GetEntries()));
ad712d2e	141
56d2de52	142	for(Int_t i=0;i<pLdc->GetEntries();i++)//lists of LDCs
402c5589	143	gSystem->Exec(Form("tar xf %s",GetFile(kDAQ,"pedestals",((TObjString*)pLdc->At(i))->GetName()))); //untar pedestal files from current LDC
ad712d2e	144
56d2de52	145	AliHMPIDDigit dig;
56d2de52	146	Int_t nSigCut,r,d,a,hard; Float_t mean,sigma;
ad712d2e	147
56d2de52	148	for(Int_t ddl=0;ddl<14;ddl++){
56d2de52	149	ifstream infile(Form("HmpidPedDdl%02i.txt",ddl));
ad712d2e	150	if(!infile.is_open()) {Log("No pedestal file found for HMPID,bye!");return kFALSE;}
56d2de52	151	TMatrix pM=(TMatrixF)aDaqSig.At(ddl/2);
	152	infile>>nSigCut; pM->SetUniqueID(nSigCut); //n. of pedestal distribution sigmas used to create zero suppresion table
	153	while(!infile.eof()){
	154	infile>>dec>>r>>d>>a>>mean>>sigma>>hex>>hard;
	155	dig.Raw(ddl,r,d,a);
ab5ca5d6	156	(*pM)(dig.PadChX(),dig.PadChY()) = sigma;
56d2de52	157	}
56d2de52	158	infile.close();
ad712d2e	159	Log(Form("Pedestal file for DDL %i read successfully",ddl));
56d2de52	160	}
ad712d2e	161
	162	AliCDBMetaData metaData;
	163	metaData.SetBeamPeriod(0);
	164	metaData.SetResponsible("AliHMPIDPreprocessor");
	165	metaData.SetComment("SIMULATED");
	166
	167	stPedStore = Store("Calib","DaqSig",&aDaqSig,&metaData,0,kTRUE);
	168
	169	if(!stPedStore) {
	170	Log("HMPID - failure to store PEDESTAL data results in OCDB");
	171	}
	172	return stPedStore;
	173
56d2de52	174	}//ProcPed()
	175	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
	176	Double_t ProcTrans()
	177	{
	178	// Process transparency monitoring data and calculates Emean
	179	Double_t eMean=6.67786; //mean energy of photon defined by transperancy window
	180	return eMean;
	181	}
	182	//++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
	183