/************************************************************************** * Copyright(c) 2007-2009, 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. * **************************************************************************/ /* $Id$ */ // ************************************************************* // Checks the quality assurance // by comparing with reference data // contained in a DB // ------------------------------------------------------------- // W. Ferrarese + P. Cerello Feb 2008 // INFN Torino // --- ROOT system --- #include #include #include #include #include // --- Standard library --- // --- AliRoot header files --- #include "AliITSQASSDDataMakerRec.h" #include "AliQADataMakerRec.h" #include "AliLog.h" #include "AliQA.h" #include "AliQAChecker.h" #include "AliRawReader.h" #include "AliRawReaderRoot.h" #include "AliITSRawStreamSSD.h" #include "AliITSgeomTGeo.h" #include "AliRawEventHeaderBase.h" #include "AliITSRecPoint.h" #include "AliITSBadChannelsSSDv2.h" #include "AliCDBManager.h" #include "AliCDBEntry.h" ClassImp(AliITSQASSDDataMakerRec) AliITSQASSDDataMakerRec::AliITSQASSDDataMakerRec(AliITSQADataMakerRec *aliITSQADataMakerRec, Bool_t kMode, Int_t ldc) : TObject(), fAliITSQADataMakerRec(aliITSQADataMakerRec), fSSDEvent(0), fSSDEventPerCycle(0), fkOnline(kMode), fLDC(ldc), fSSDRawsOffset(0), fSSDRawsDAOffset(0), fSSDRawsCommonLevelOffset(0), fSSDhTask(0), fGenOffset(0), fCDBManager(0) { // Default constructor //initilize the raw signal vs strip number histograms if(fkOnline) { fCDBManager = AliCDBManager::Instance(); //fCDBManager->SetDefaultStorage("local://$ALICE_ROOT"); fCDBManager->SetDefaultStorage(gSystem->Getenv("AMORE_CDB_URI")); Int_t runNumber = atoi(gSystem->Getenv("DATE_RUN_NUMBER")); if(!runNumber) AliInfo("DATE_RUN_NUMBER not defined!!!\n"); fCDBManager->SetRun(runNumber); AliCDBEntry *geomGRP = fCDBManager->Get("GRP/Geometry/Data"); if(!geomGRP) AliInfo("GRP geometry not found!!!\n"); Int_t gLayer = 0,gLadder = 0, gModule = 0; Int_t gHistCounter = 0; TString gTitle; for(Int_t iModule = 500; iModule < fgkSSDMODULES + 500; iModule++) { AliITSgeomTGeo::GetModuleId(iModule,gLayer,gLadder,gModule); gTitle = "SSD_RawSignal_Layer"; gTitle += gLayer; gTitle += "_Ladder"; gTitle += gLadder; gTitle += "_Module"; gTitle += gModule; fHistSSDRawSignalModule[gHistCounter] = new TH1D(gTitle.Data(),gTitle.Data(), 2*fgkNumberOfPSideStrips,0,2*fgkNumberOfPSideStrips); gHistCounter += 1; for(Int_t iStrip = 0; iStrip < 2*fgkNumberOfPSideStrips; iStrip++) fOccupancyMatrix[iModule-500][iStrip] = 0; }//module loop }//online flag else { for(Int_t iModule = 0; iModule < fgkSSDMODULES; iModule++) fHistSSDRawSignalModule[iModule]=NULL; fCDBManager = NULL; } } //____________________________________________________________________________ AliITSQASSDDataMakerRec::AliITSQASSDDataMakerRec(const AliITSQASSDDataMakerRec& qadm) : TObject(), fAliITSQADataMakerRec(qadm.fAliITSQADataMakerRec), fSSDEvent(qadm.fSSDEvent), fSSDEventPerCycle(qadm.fSSDEventPerCycle), fkOnline(qadm.fkOnline), fLDC(qadm.fLDC), fSSDRawsOffset(qadm.fSSDRawsOffset), fSSDRawsDAOffset(qadm.fSSDRawsDAOffset), fSSDRawsCommonLevelOffset(qadm.fSSDRawsCommonLevelOffset), fSSDhTask(qadm.fSSDhTask), fGenOffset(qadm.fGenOffset), fCDBManager(qadm.fCDBManager) { //copy ctor fAliITSQADataMakerRec->SetName((const char*)qadm.fAliITSQADataMakerRec->GetName()) ; fAliITSQADataMakerRec->SetTitle((const char*)qadm.fAliITSQADataMakerRec->GetTitle()); } //__________________________________________________________________ AliITSQASSDDataMakerRec& AliITSQASSDDataMakerRec::operator = (const AliITSQASSDDataMakerRec& qac ) { // Equal operator. this->~AliITSQASSDDataMakerRec(); new(this) AliITSQASSDDataMakerRec(qac); return *this; } //__________________________________________________________________ AliITSQASSDDataMakerRec::~AliITSQASSDDataMakerRec() { // destructor for(Int_t iModule = 0; iModule < fgkSSDMODULES; iModule++) if(fHistSSDRawSignalModule[iModule]) delete fHistSSDRawSignalModule[iModule]; if(fCDBManager) delete fCDBManager; } //____________________________________________________________________________ void AliITSQASSDDataMakerRec::StartOfDetectorCycle() { if ( fAliITSQADataMakerRec->GetRawsData(0) == NULL ) // Raws not defined return ; //Detector specific actions at start of cycle AliDebug(1,"AliITSQADM::Start of SSD Cycle\n"); //Data size per DDL ((TH1D *)(fAliITSQADataMakerRec->GetRawsData(fGenOffset+4)))->Reset(); //Data size per LDC ((TH1D *)(fAliITSQADataMakerRec->GetRawsData(fGenOffset+22)))->Reset(); //online part if(fkOnline) { for(Int_t iModule = 500; iModule < fgkSSDMODULES + 500; iModule++) { for(Int_t iStrip = 0; iStrip < 2*fgkNumberOfPSideStrips; iStrip++) fOccupancyMatrix[iModule-500][iStrip] = 0; }//module loop Int_t gHistPositionOccupancyPerLadder = 0; Int_t gLayer = 0, gLadder = 0, gModule = 0; for(Int_t iModule = 0; iModule < fgkSSDMODULES; iModule++) { AliITSgeomTGeo::GetModuleId(iModule+500,gLayer,gLadder,gModule); gHistPositionOccupancyPerLadder = (gLayer == 5) ? 2*(gLadder - 1) : 2*(gLadder - 1 + fgkSSDLADDERSLAYER5); //P-SIDE OCCUPANCY fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+gHistPositionOccupancyPerLadder)->Reset(); //N-SIDE OCCUPANCY fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+gHistPositionOccupancyPerLadder+1)->Reset(); ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6))->Reset(); ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6+1))->Reset(); }//module loop }//online flag } //____________________________________________________________________________ void AliITSQASSDDataMakerRec::EndOfDetectorCycle(AliQA::TASKINDEX_t task, TObjArray* list) { // launch the QA checking if ( fAliITSQADataMakerRec->GetRawsData(0) == NULL ) // Raws not defined return ; // launch the QA checking AliDebug(1,"AliITSDM instantiates checker with Run(AliQA::kITS, task, list)\n"); //Data size per DDL for(Int_t i = 0; i < fgkNumOfDDLs; i++) { Double_t gSizePerDDL = TMath::Power(10,(fAliITSQADataMakerRec->GetRawsData(fGenOffset+5+i))->GetMean())/1e+06; ((TH1D *)(fAliITSQADataMakerRec->GetRawsData(fGenOffset+4)))->SetBinContent(i+2,gSizePerDDL); } //Data size per LDC for(Int_t i = 0; i < fgkNumOfLDCs; i++) { Double_t gSizePerLDC = TMath::Power(10,(fAliITSQADataMakerRec->GetRawsData(fGenOffset+23+i))->GetMean())/1e+06; ((TH1D *)(fAliITSQADataMakerRec->GetRawsData(fGenOffset+22)))->SetBinContent(i+6,gSizePerLDC); } //online part if(fkOnline) { //Output of the DA MonitorOCDBObjects(); Int_t gHistPositionOccupancyPerModule = 0; Int_t gLayer = 0, gLadder = 0, gModule = 0; //occupancy per module for(Int_t iModule = 0; iModule < fgkSSDMODULES; iModule++) { AliITSgeomTGeo::GetModuleId(iModule+500,gLayer,gLadder,gModule); gHistPositionOccupancyPerModule = (gLayer == 5) ? ((gLadder - 1)*fgkSSDMODULESPERLADDERLAYER5 + gModule - 1) : ((gLadder - 1)*fgkSSDMODULESPERLADDERLAYER6 + gModule + fgkSSDMODULESLAYER5 - 1); for(Int_t iBins = 1; iBins < fHistSSDRawSignalModule[iModule]->GetXaxis()->GetNbins(); iBins++) fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+gHistPositionOccupancyPerModule)->SetBinContent(iBins,fOccupancyMatrix[iModule][iBins-1]); if(fSSDEventPerCycle != 0) ((TH1D *)(fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+gHistPositionOccupancyPerModule)))->Scale(100./fSSDEventPerCycle); }//module loop //occupancy per ladder Int_t gHistPositionOccupancyPerLadder = 0; Int_t lLadderLocationY = 0; Double_t occupancy = 0.0, occupancyThreshold = 0.0, occupancyAverage = 0.0; for(Int_t iModule = 0; iModule < fgkSSDMODULES; iModule++) { AliITSgeomTGeo::GetModuleId(iModule+500,gLayer,gLadder,gModule); gHistPositionOccupancyPerModule = (gLayer == 5) ? ((gLadder - 1)*fgkSSDMODULESPERLADDERLAYER5 + gModule - 1) : ((gLadder - 1)*fgkSSDMODULESPERLADDERLAYER6 + gModule + fgkSSDMODULESLAYER5 - 1); gHistPositionOccupancyPerLadder = (gLayer == 5) ? 2*(gLadder - 1) : 2*(gLadder - 1 + fgkSSDLADDERSLAYER5); //P-SIDE OCCUPANCY occupancy = GetOccupancyModule((TH1 *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+gHistPositionOccupancyPerModule),0,0,0); occupancyThreshold = GetOccupancyModule((TH1 *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+gHistPositionOccupancyPerModule),0,1,3); occupancyAverage = GetOccupancyModule((TH1 *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+gHistPositionOccupancyPerModule),0,2,0); fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+gHistPositionOccupancyPerLadder)->Fill(gModule,occupancy); lLadderLocationY = 3*gLadder; // sideP=1 sideN=0 if(gLayer == 5) { //occupancy per module - no threshold ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6))->SetBinContent(gModule,lLadderLocationY,occupancy); //occupancy per module - threshold @ 3% ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6+2))->SetBinContent(gModule,lLadderLocationY,occupancyThreshold); //average occupancy per module ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6+4))->SetBinContent(gModule,lLadderLocationY,occupancyAverage); } else if(gLayer == 6) { //occupancy per module - no threshold ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6+1))->SetBinContent(gModule,lLadderLocationY,occupancy); //occupancy per module - threshold @ 3% ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6+3))->SetBinContent(gModule,lLadderLocationY,occupancyThreshold); //average occupancy per module ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6+5))->SetBinContent(gModule,lLadderLocationY,occupancyAverage); } //N-SIDE OCCUPANCY occupancy = GetOccupancyModule((TH1 *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+gHistPositionOccupancyPerModule),1,0,0); occupancyThreshold = GetOccupancyModule((TH1 *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+gHistPositionOccupancyPerModule),1,1,3); occupancyAverage = GetOccupancyModule((TH1 *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+gHistPositionOccupancyPerModule),1,2,0); fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+gHistPositionOccupancyPerLadder+1)->Fill(gModule,occupancy); if(gLayer == 5) { //occupancy per module - no threshold ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6))->SetBinContent(gModule,lLadderLocationY-1,occupancy); //occupancy per module - threshold @ 3% ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6+2))->SetBinContent(gModule,lLadderLocationY-1,occupancyThreshold); //average occupancy per module ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6+4))->SetBinContent(gModule,lLadderLocationY-1,occupancyAverage); } else if(gLayer == 6) { //occupancy per module - no threshold ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6+1))->SetBinContent(gModule,lLadderLocationY-1,occupancy); //occupancy per module - threshold @ 3% ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6+3))->SetBinContent(gModule,lLadderLocationY-1,occupancyThreshold); //average occupancy per module ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsCommonLevelOffset+fgkSSDMODULES+2*fgkSSDLADDERSLAYER5+2*fgkSSDLADDERSLAYER6+5))->SetBinContent(gModule,lLadderLocationY-1,occupancyAverage); } }//module loop }//online flag for SSD fSSDEventPerCycle = 0; AliQAChecker::Instance()->Run( AliQA::kITS , task, list); } //____________________________________________________________________________ void AliITSQASSDDataMakerRec::InitRaws() { // Initialization for RAW data - SSD - fGenOffset = (fAliITSQADataMakerRec->fRawsQAList)->GetEntries(); if(fkOnline) { AliInfo("Book Online Histograms for SSD\n"); } else { AliInfo("Book Offline Histograms for SSD\n "); } AliInfo(Form("Number of histograms (SPD+SDD): %d\n",fGenOffset)); TString gTitle = 0; //book online-offline QA histos TH1F *fHistSSDEventType = new TH1F("SSD/DataSize/fHistSSDEventType", ";Event type;Events", 31,-1,30); fAliITSQADataMakerRec->Add2RawsList(fHistSSDEventType, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; TH1F *fHistSSDDataSize = new TH1F("SSD/DataSize/fHistSSDDataSize", ";log(SSD data size) [Bytes];Events", 100,3,8); fAliITSQADataMakerRec->Add2RawsList(fHistSSDDataSize, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; TH1F *fHistSSDDataSizePercentage = new TH1F("SSD/DataSize/fHistSSDDataSizePercentage", ";SSD data size [%];Events", 100,0,100); fAliITSQADataMakerRec->Add2RawsList(fHistSSDDataSizePercentage, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; TH1F *fHistSSDDDLId = new TH1F("SSD/DDL/fHistSSDDDLId", ";DDL id;Events",20,510.5,530.5); fAliITSQADataMakerRec->Add2RawsList(fHistSSDDDLId, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; TH1F *fHistSSDDataSizePerDDL = new TH1F("SSD/DataSize/fHistSSDDataSizePerDDL", ";DDL id; [MB]", 20,510.5,530.5); fAliITSQADataMakerRec->Add2RawsList(fHistSSDDataSizePerDDL, fGenOffset+fSSDRawsOffset); fSSDRawsOffset += 1; TH1F *fHistSSDDataSizeDDL[fgkNumOfDDLs]; for(Int_t i = 1; i < fgkNumOfDDLs+1; i++) { gTitle = "SSD/DDL/fHistSSDDataSizeDDL"; gTitle += i+511; fHistSSDDataSizeDDL[i-1] = new TH1F(gTitle.Data(), ";log(SSD data size) [Bytes];Events", 100,1,8); fAliITSQADataMakerRec->Add2RawsList(fHistSSDDataSizeDDL[i-1], fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; } TH1F *fHistSSDLDCId = new TH1F("SSD/LDC/fHistSSDLDCId",";LDC id;Events",10,0.5,10.5); fAliITSQADataMakerRec->Add2RawsList(fHistSSDLDCId, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; TH1F *fHistSSDDataSizePerLDC = new TH1F("SSD/DataSize/fHistSSDDataSizePerLDC", ";LDC id; [MB]", 20,0.5,20.5); fAliITSQADataMakerRec->Add2RawsList(fHistSSDDataSizePerLDC, fGenOffset+fSSDRawsOffset); fSSDRawsOffset += 1; TH1F *fHistSSDDataSizeLDC[fgkNumOfLDCs]; for(Int_t i = 1; i < fgkNumOfLDCs+1; i++) { gTitle = "SSD/LDC/fHistSSDDataSizeLDC"; if(i == 1) gTitle += "082"; if(i == 2) gTitle += "086"; if(i == 3) gTitle += "085"; fHistSSDDataSizeLDC[i-1] = new TH1F(gTitle.Data(), ";log(SSD data size) [Bytes];Events", 100,1,8); fAliITSQADataMakerRec->Add2RawsList(fHistSSDDataSizeLDC[i-1], fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; } fSSDRawsCommonLevelOffset = fSSDRawsOffset; if(fkOnline) { Int_t gLayer = 0, gLadder = 0, gModule = 0; //occupancy per SSD module TH1D *fHistSSDOccupancyModule[fgkSSDMODULES]; for(Int_t i = 500; i < fgkSSDMODULES + 500; i++) { AliITSgeomTGeo::GetModuleId(i,gLayer,gLadder,gModule); gTitle = "SSD/Occupancy/Layer"; gTitle += gLayer; gTitle += "/Ladder"; if(gLayer == 5) { gTitle += 499+gLadder; gTitle += "/fHistSSD_Occupancy_Layer"; gTitle += gLayer; gTitle += "_Ladder"; gTitle += 499+gLadder; } if(gLayer == 6) { gTitle += 599+gLadder; gTitle += "/fHistSSD_Occupancy_Layer"; gTitle += gLayer; gTitle += "_Ladder"; gTitle += 599+gLadder; } gTitle += "_Module"; gTitle += gModule; fHistSSDOccupancyModule[i-500] = new TH1D(gTitle.Data(),gTitle.Data(), 2*fgkNumberOfPSideStrips,0,2*fgkNumberOfPSideStrips); fHistSSDOccupancyModule[i-500]->GetXaxis()->SetTitleColor(1); fHistSSDOccupancyModule[i-500]->GetXaxis()->SetTitle("N_{strip}"); fHistSSDOccupancyModule[i-500]->GetYaxis()->SetTitle("Occupancy [%]"); fAliITSQADataMakerRec->Add2RawsList(fHistSSDOccupancyModule[i-500], fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; } //Occupancy per SSD ladder Int_t occupancyCounter = 0; TH1D *fHistSSDOccupancyLadder[2*(fgkSSDLADDERSLAYER5 + fgkSSDLADDERSLAYER6)]; for(Int_t iLayer = 5; iLayer < 7; iLayer++) { for(Int_t iLadder = 1; iLadder < AliITSgeomTGeo::GetNLadders(iLayer) + 1; iLadder++) { //P-side occupancy plots gTitle = "SSD/Occupancy/Layer"; gTitle += iLayer; gTitle += "/Ladder"; if(iLayer == 5) { gTitle += 499+iLadder; gTitle += "/fHistSSD_Occupancy_Layer"; gTitle += iLayer; gTitle += "_Ladder"; gTitle += 499+iLadder; } if(iLayer == 6) { gTitle += 599+iLadder; gTitle += "/fHistSSD_Occupancy_Layer"; gTitle += iLayer; gTitle += "_Ladder"; gTitle += 599+iLadder; } gTitle += "_PSide"; fHistSSDOccupancyLadder[occupancyCounter] = new TH1D(gTitle.Data(), gTitle.Data(), AliITSgeomTGeo::GetNDetectors(iLayer), 0.5,AliITSgeomTGeo::GetNDetectors(iLayer)+0.5); fHistSSDOccupancyLadder[occupancyCounter]->GetXaxis()->SetTitleColor(1); fHistSSDOccupancyLadder[occupancyCounter]->GetXaxis()->SetTitle("Module number"); fHistSSDOccupancyLadder[occupancyCounter]->GetYaxis()->SetTitle("Occupancy [%]"); fAliITSQADataMakerRec->Add2RawsList(fHistSSDOccupancyLadder[occupancyCounter], fGenOffset+fSSDRawsOffset, kTRUE); occupancyCounter += 1; fSSDRawsOffset += 1; //N-side occupancy plots gTitle = "SSD/Occupancy/Layer"; gTitle += iLayer; gTitle += "/Ladder"; if(iLayer == 5) { gTitle += 499+iLadder; gTitle += "/fHistSSD_Occupancy_Layer"; gTitle += iLayer; gTitle += "_Ladder"; gTitle += 499+iLadder; } if(iLayer == 6) { gTitle += 599+iLadder; gTitle += "/fHistSSD_Occupancy_Layer"; gTitle += iLayer; gTitle += "_Ladder"; gTitle += 599+iLadder; } gTitle += "_NSide"; fHistSSDOccupancyLadder[occupancyCounter] = new TH1D(gTitle.Data(), gTitle.Data(), AliITSgeomTGeo::GetNDetectors(iLayer), 0.5,AliITSgeomTGeo::GetNDetectors(iLayer)+0.5); fHistSSDOccupancyLadder[occupancyCounter]->GetXaxis()->SetTitleColor(1); fHistSSDOccupancyLadder[occupancyCounter]->GetXaxis()->SetTitle("Module number"); fHistSSDOccupancyLadder[occupancyCounter]->GetYaxis()->SetTitle("Occupancy [%]"); fAliITSQADataMakerRec->Add2RawsList(fHistSSDOccupancyLadder[occupancyCounter], fGenOffset+fSSDRawsOffset, kTRUE); occupancyCounter += 1; fSSDRawsOffset += 1; }//ladder loop }//layer loop //top level occupancy plots //occupancy per module - no threshold TH2D *fHistSSDOccupancyLayer5 = new TH2D("SSD/Occupancy/Layer5/fHistSSDOccupancyLayer5", ";N_{modules};N_{Ladders}", fgkSSDMODULESPERLADDERLAYER5, 0,fgkSSDMODULESPERLADDERLAYER5, 3*fgkSSDLADDERSLAYER5, 0,fgkSSDLADDERSLAYER5); fHistSSDOccupancyLayer5->SetTitle("Occupancy per module (Layer 5) - No threshold"); Char_t fLabel[3]; for(Int_t iBin = 1; iBin < fgkSSDMODULESPERLADDERLAYER5 + 1; iBin++){ sprintf(fLabel,"%d",iBin); fHistSSDOccupancyLayer5->GetXaxis()->SetBinLabel(iBin,fLabel); } fAliITSQADataMakerRec->Add2RawsList(fHistSSDOccupancyLayer5, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; TH2D *fHistSSDOccupancyLayer6 = new TH2D("SSD/Occupancy/Layer6/fHistSSDOccupancyLayer6", ";N_{modules};N_{Ladders}", fgkSSDMODULESPERLADDERLAYER6, 0,fgkSSDMODULESPERLADDERLAYER6, 3*fgkSSDLADDERSLAYER6, 0,fgkSSDLADDERSLAYER6); fHistSSDOccupancyLayer6->SetTitle("Occupancy per module (Layer 6) - No threshold"); for(Int_t iBin = 1; iBin < fgkSSDMODULESPERLADDERLAYER6 + 1; iBin++){ sprintf(fLabel,"%d",iBin); fHistSSDOccupancyLayer6->GetXaxis()->SetBinLabel(iBin,fLabel); } fAliITSQADataMakerRec->Add2RawsList(fHistSSDOccupancyLayer6, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; //occupancy per module - threshold @ 3% TH2D *fHistSSDOccupancyThresholdLayer5 = new TH2D("SSD/Occupancy/Layer5/fHistSSDOccupancyThresholdLayer5", ";N_{modules};N_{Ladders}", fgkSSDMODULESPERLADDERLAYER5, 0,fgkSSDMODULESPERLADDERLAYER5, 3*fgkSSDLADDERSLAYER5, 0,fgkSSDLADDERSLAYER5); fHistSSDOccupancyThresholdLayer5->SetTitle("Occupancy per module (Layer 5) - Threshold 3%"); for(Int_t iBin = 1; iBin < fgkSSDMODULESPERLADDERLAYER5 + 1; iBin++){ sprintf(fLabel,"%d",iBin); fHistSSDOccupancyThresholdLayer5->GetXaxis()->SetBinLabel(iBin,fLabel); } fAliITSQADataMakerRec->Add2RawsList(fHistSSDOccupancyThresholdLayer5, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; TH2D *fHistSSDOccupancyThresholdLayer6 = new TH2D("SSD/Occupancy/Layer6/fHistSSDOccupancyThresholdLayer6", ";N_{modules};N_{Ladders}", fgkSSDMODULESPERLADDERLAYER6, 0,fgkSSDMODULESPERLADDERLAYER6, 3*fgkSSDLADDERSLAYER6, 0,fgkSSDLADDERSLAYER6); fHistSSDOccupancyThresholdLayer6->SetTitle("Occupancy per module (Layer 6) - Threshold 3%"); for(Int_t iBin = 1; iBin < fgkSSDMODULESPERLADDERLAYER6 + 1; iBin++){ sprintf(fLabel,"%d",iBin); fHistSSDOccupancyThresholdLayer6->GetXaxis()->SetBinLabel(iBin,fLabel); } fAliITSQADataMakerRec->Add2RawsList(fHistSSDOccupancyThresholdLayer6, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; //Average occupancy per module TH2D *fHistSSDAverageOccupancyLayer5 = new TH2D("SSD/Occupancy/Layer5/fHistSSDAverageOccupancyLayer5", ";N_{modules};N_{Ladders}", fgkSSDMODULESPERLADDERLAYER5, 0,fgkSSDMODULESPERLADDERLAYER5, 3*fgkSSDLADDERSLAYER5, 0,fgkSSDLADDERSLAYER5); fHistSSDAverageOccupancyLayer5->SetTitle("Average occupancy per module (Layer 5)"); for(Int_t iBin = 1; iBin < fgkSSDMODULESPERLADDERLAYER5 + 1; iBin++){ sprintf(fLabel,"%d",iBin); fHistSSDAverageOccupancyLayer5->GetXaxis()->SetBinLabel(iBin,fLabel); } fAliITSQADataMakerRec->Add2RawsList(fHistSSDAverageOccupancyLayer5, fGenOffset+fSSDRawsOffset); fSSDRawsOffset += 1; TH2D *fHistSSDAverageOccupancyLayer6 = new TH2D("SSD/Occupancy/Layer6/fHistSSDAverageOccupancyLayer6", ";N_{modules};N_{Ladders}", fgkSSDMODULESPERLADDERLAYER6, 0,fgkSSDMODULESPERLADDERLAYER6, 3*fgkSSDLADDERSLAYER6, 0,fgkSSDLADDERSLAYER6); fHistSSDAverageOccupancyLayer6->SetTitle("Average occupancy per module (Layer 6)"); for(Int_t iBin = 1; iBin < fgkSSDMODULESPERLADDERLAYER6 + 1; iBin++){ sprintf(fLabel,"%d",iBin); fHistSSDAverageOccupancyLayer6->GetXaxis()->SetBinLabel(iBin,fLabel); } fAliITSQADataMakerRec->Add2RawsList(fHistSSDAverageOccupancyLayer6, fGenOffset+fSSDRawsOffset); fSSDRawsOffset += 1; //Output of the DA TH2D *fHistPSideBadChannelMapLayer5 = new TH2D("SSD/BadChannels/fHistPSideBadChannelMapLayer5", "Layer 5;N_{module};N_{ladder}", 22,1,23, 34,500,534); fHistPSideBadChannelMapLayer5->GetXaxis()->SetTitleColor(1); fHistPSideBadChannelMapLayer5->SetStats(kFALSE); fHistPSideBadChannelMapLayer5->GetYaxis()->SetTitleOffset(1.8); fHistPSideBadChannelMapLayer5->GetXaxis()->SetNdivisions(22); fHistPSideBadChannelMapLayer5->GetYaxis()->SetNdivisions(34); fHistPSideBadChannelMapLayer5->GetXaxis()->SetLabelSize(0.03); fHistPSideBadChannelMapLayer5->GetYaxis()->SetLabelSize(0.03); fHistPSideBadChannelMapLayer5->GetZaxis()->SetTitleOffset(1.6); fHistPSideBadChannelMapLayer5->GetZaxis()->SetTitle("Bad channels (p-side)[%]"); fAliITSQADataMakerRec->Add2RawsList(fHistPSideBadChannelMapLayer5, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; fSSDRawsDAOffset += 1; TH2D *fHistNSideBadChannelMapLayer5 = new TH2D("SSD/BadChannels/fHistNSideBadChannelMapLayer5", "Layer 5;N_{module};N_{ladder}", 22,1,23, 34,500,534); fHistNSideBadChannelMapLayer5->GetXaxis()->SetTitleColor(1); fHistNSideBadChannelMapLayer5->SetStats(kFALSE); fHistNSideBadChannelMapLayer5->GetYaxis()->SetTitleOffset(1.8); fHistNSideBadChannelMapLayer5->GetXaxis()->SetNdivisions(22); fHistNSideBadChannelMapLayer5->GetYaxis()->SetNdivisions(34); fHistNSideBadChannelMapLayer5->GetXaxis()->SetLabelSize(0.03); fHistNSideBadChannelMapLayer5->GetYaxis()->SetLabelSize(0.03); fHistNSideBadChannelMapLayer5->GetZaxis()->SetTitleOffset(1.6); fHistNSideBadChannelMapLayer5->GetZaxis()->SetTitle("Bad channels (n-side)[%]"); fAliITSQADataMakerRec->Add2RawsList(fHistNSideBadChannelMapLayer5, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; fSSDRawsDAOffset += 1; TH2D *fHistPSideBadChannelMapLayer6 = new TH2D("SSD/BadChannels/fHistPSideBadChannelMapLayer6", "Layer 6;N_{module};N_{ladder}", 25,1,26, 38,600,638); fHistPSideBadChannelMapLayer6->GetXaxis()->SetTitleColor(1); fHistPSideBadChannelMapLayer6->SetStats(kFALSE); fHistPSideBadChannelMapLayer6->GetYaxis()->SetTitleOffset(1.8); fHistPSideBadChannelMapLayer6->GetXaxis()->SetNdivisions(25); fHistPSideBadChannelMapLayer6->GetYaxis()->SetNdivisions(38); fHistPSideBadChannelMapLayer6->GetXaxis()->SetLabelSize(0.03); fHistPSideBadChannelMapLayer6->GetYaxis()->SetLabelSize(0.03); fHistPSideBadChannelMapLayer6->GetZaxis()->SetTitleOffset(1.6); fHistPSideBadChannelMapLayer6->GetZaxis()->SetTitle("Bad channels (p-side)[%]"); fAliITSQADataMakerRec->Add2RawsList(fHistPSideBadChannelMapLayer6, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; fSSDRawsDAOffset += 1; TH2D *fHistNSideBadChannelMapLayer6 = new TH2D("SSD/BadChannels/fHistNSideBadChannelMapLayer6", "Layer 6;N_{module};N_{ladder}", 25,1,26, 38,600,638); fHistNSideBadChannelMapLayer6->GetXaxis()->SetTitleColor(1); fHistNSideBadChannelMapLayer6->SetStats(kFALSE); fHistNSideBadChannelMapLayer6->GetYaxis()->SetTitleOffset(1.8); fHistNSideBadChannelMapLayer6->GetXaxis()->SetNdivisions(25); fHistNSideBadChannelMapLayer6->GetYaxis()->SetNdivisions(38); fHistNSideBadChannelMapLayer6->GetXaxis()->SetLabelSize(0.03); fHistNSideBadChannelMapLayer6->GetYaxis()->SetLabelSize(0.03); fHistNSideBadChannelMapLayer6->GetZaxis()->SetTitleOffset(1.6); fHistNSideBadChannelMapLayer6->GetZaxis()->SetTitle("Bad channels (n-side)[%]"); fAliITSQADataMakerRec->Add2RawsList(fHistNSideBadChannelMapLayer6, fGenOffset+fSSDRawsOffset, kTRUE); fSSDRawsOffset += 1; fSSDRawsDAOffset += 1; }//online flag fSSDhTask = fSSDRawsOffset; AliDebug(1,Form("%d SSD Raws histograms booked\n",fSSDhTask)); AliInfo(Form("Number of histograms (SPD+SDD+SSD): %d\n",fGenOffset+fSSDhTask)); AliDebug(1,Form("Number of histograms (SPD+SDD+SSD): %d\n",fGenOffset+fSSDRawsOffset)); } //____________________________________________________________________________ void AliITSQASSDDataMakerRec::MakeRaws(AliRawReader* rawReader) { // Fill QA for RAW - SSD - Int_t gStripNumber; Int_t gHistPosition; Int_t gLayer = 0,gLadder = 0, gModule = 0; Double_t gSizePerDDL[fgkNumOfDDLs] = {0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.}; Double_t gSizePerLDC[fgkNumOfLDCs] = {0.,0.,0.}; Double_t sumSSDDataSize = 0.0; Double_t eventSize = -1.0; if(fkOnline) { //reset the signal vs strip number histograms for(Int_t iModule = 0; iModule < fgkSSDMODULES; iModule++) fHistSSDRawSignalModule[iModule]->Reset(); }//online flag rawReader->Select("ITSSSD",-1,-1); rawReader->Reset(); //rawReader->NextEvent(); (fAliITSQADataMakerRec->GetRawsData(fGenOffset))->Fill(rawReader->GetType()); if(rawReader->GetType() == 7) { fSSDEvent += 1; fSSDEventPerCycle += 1; } AliITSRawStreamSSD gSSDStream(rawReader); AliRawReaderRoot *rootReader = (AliRawReaderRoot *)rawReader; if(rootReader) { const AliRawEventHeaderBase *header = rootReader->GetEventHeader(); if(header) eventSize = header->GetEventSize(); } while (gSSDStream.Next()) { if(gSSDStream.GetModuleID() < 0) continue; /*cout<<"DDL: "<GetDDLID()<< " - LDC: "<GetLDCId()<< " - Size: "<GetDataSize()<< " - Equipment size: "<GetEquipmentSize()<GetDDLID()] = rawReader->GetDataSize(); gSizePerLDC[rawReader->GetLDCId()-6] = rawReader->GetDataSize(); AliITSgeomTGeo::GetModuleId(gSSDStream.GetModuleID(),gLayer,gLadder,gModule); if(gSSDStream.GetStrip() < 0) continue; gStripNumber = (gSSDStream.GetSideFlag() == 0) ? gSSDStream.GetStrip() : -gSSDStream.GetStrip() + 2*fgkNumberOfPSideStrips; gHistPosition = (gLayer == 5) ? ((gLadder - 1)*fgkSSDMODULESPERLADDERLAYER5 + gModule - 1) : ((gLadder - 1)*fgkSSDMODULESPERLADDERLAYER6 + gModule + fgkSSDMODULESLAYER5 - 1); //AliInfo(Form("ModulePosition: %d - Layer: %d - Ladder: %d - Module: %d\n",gHistPosition,gLayer,gLadder,gModule)); if(fkOnline) fHistSSDRawSignalModule[gHistPosition]->Fill(gStripNumber,gSSDStream.GetSignal()); //fAliITSQADataMakerRec->GetRawsData(fGenOffset+gHistPosition+fSSDRawsCommonLevelOffset)->Fill(gStripNumber,gSSDStream.GetSignal()); }//streamer loop //event size calculation and filling info for(Int_t i = 0; i < fgkNumOfDDLs; i++) { sumSSDDataSize += gSizePerDDL[i]; if(gSizePerDDL[i] > 0) { (fAliITSQADataMakerRec->GetRawsData(fGenOffset+3))->Fill(i+512); (fAliITSQADataMakerRec->GetRawsData(fGenOffset+5+i))->Fill(TMath::Log10(gSizePerDDL[i])); } //(fAliITSQADataMakerRec->GetRawsData(fGenOffset+4))->Fill(i+512,gSizePerDDL[i]/1e+06); } for(Int_t i = 0; i < fgkNumOfLDCs; i++) { if(gSizePerLDC[i] > 0) { (fAliITSQADataMakerRec->GetRawsData(fGenOffset+21))->Fill(i+6); //LDC 082 if(i == 0) gSizePerLDC[i] = gSizePerDDL[8] + gSizePerDDL[9] + gSizePerDDL[10] + gSizePerDDL[11] + gSizePerDDL[12] + gSizePerDDL[13]; //LDC 086 if(i == 1) gSizePerLDC[i] = gSizePerDDL[3] + gSizePerDDL[4] + gSizePerDDL[5] + gSizePerDDL[6] + gSizePerDDL[7]; //LDC 085 if(i == 2) gSizePerLDC[i] = gSizePerDDL[0] + gSizePerDDL[1] + gSizePerDDL[2] + gSizePerDDL[14] + gSizePerDDL[15]; (fAliITSQADataMakerRec->GetRawsData(fGenOffset+23+i))->Fill(TMath::Log10(gSizePerLDC[i])); //cout<<"Event: "<GetRawsData(fGenOffset+22))->Fill(i+6,gSizePerLDC[i]/1e+06); } if(sumSSDDataSize) (fAliITSQADataMakerRec->GetRawsData(fGenOffset+1))->Fill(TMath::Log10(sumSSDDataSize)); if(eventSize) (fAliITSQADataMakerRec->GetRawsData(fGenOffset+2))->Fill(100.*sumSSDDataSize/eventSize); //Occupancy calculation if(fkOnline) { for(Int_t iModule = 0; iModule < fgkSSDMODULES; iModule++) { GetOccupancyStrip(fHistSSDRawSignalModule[iModule],fOccupancyMatrix[iModule]); //if(iModule == 156) { //cout<<"========================================"<GetXaxis()->GetNbins(); iBin++) { if((iBin >= 750)&&(iBin <= 780)) cout<<"Event: "<GetBinContent(iBin)< to be removed //}//module cut --> to be removed }//module loop }//online flag for SSD } //____________________________________________________________________________ // void AliITSQASSDDataMakerRec::GetOccupancyStrip(TH1 *lHisto, Int_t *occupancyMatrix) { //Increments the entries in the occupancy matrix based //on whether the signal for each strip is larger than the cutoff //Currently the cutoff is at 0 which means that if ZS //works, whatever comes from the FEROM is considered as "signal" //Double_t cutoff = 0.0; TString histname = lHisto->GetName(); //cout<GetXaxis()->GetNbins(); iBin++) { Double_t y = lHisto->GetBinContent(iBin); if(y) { occupancyMatrix[iBin-1] += 1; } //if((iBin >= 750)&&(iBin <= 780)) //cout<<"Strip: "<0 or # of sigmas wrt noise ? //stripside == 0 --> P-side //stripside == 1 --> N-side Int_t lNumFiredBins = 0; Double_t sumOccupancy = 0.0; TString histname = lHisto->GetName(); for(Int_t iBin = 1 + stripside*fgkNumberOfPSideStrips; iBin < fgkNumberOfPSideStrips*(1 + stripside); iBin++){ /*if(histname.Contains("Layer5_Ladder507_Module3")) { cout<GetName()<< " - Strip: "<GetBinContent(iBin)<GetBinContent(iBin) > threshold) { lNumFiredBins++; sumOccupancy = lHisto->GetBinContent(iBin); } } Double_t lOccupancy = 0.0; if((mode == 0)||(mode == 1)) lOccupancy = (100.*lNumFiredBins)/fgkNumberOfPSideStrips; // percentage else if(mode == 2) lOccupancy = 100.*sumOccupancy/fgkNumberOfPSideStrips; /*if(histname.Contains("Layer5_Ladder507_Module3")) cout<<"Fired strips: "<GetNbinsX(),lOccupancy)); return lOccupancy; } //____________________________________________________________________________ void AliITSQASSDDataMakerRec::MonitorOCDBObjects() { //Monitor in AMORE the output of the DA //Currently only the bad channel list is monitored //Todo: Noise - Pedestal ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset))->Reset(); ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset+1))->Reset(); ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset+2))->Reset(); ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset+3))->Reset(); AliCDBEntry *entryBadChannelsSSD = fCDBManager->Get("ITS/Calib/BadChannelsSSD"); if(!entryBadChannelsSSD) AliError("OCDB entry for the bad channel list is not valid!"); AliITSBadChannelsSSDv2 *badchannelsSSD = (AliITSBadChannelsSSDv2 *)entryBadChannelsSSD->GetObject(); if(!badchannelsSSD) AliError("Bad channel list object is not a valid AliITSBadChannelsSSD object!"); //_____________________________________________________________________________// Int_t nBadPSideChannels = 0, nBadNSideChannels = 0; Int_t layer = 0, ladder = 0, module = 0; Int_t nPSideChannelsLayer5 = 0, nNSideChannelsLayer5 = 0; Int_t nPSideChannelsLayer6 = 0, nNSideChannelsLayer6 = 0; //_____________________________________________________________________________// for(Int_t i = 0; i < fgkSSDMODULES; i++) { AliITSgeomTGeo::GetModuleId(i+500,layer,ladder,module); nBadPSideChannels = 0, nBadNSideChannels = 0; nPSideChannelsLayer5 = 0, nNSideChannelsLayer5 = 0; nPSideChannelsLayer6 = 0, nNSideChannelsLayer6 = 0; Int_t badChannel = 0; for(Int_t j = 0; j < fgkNumberOfPSideStrips; j++) { badChannel = (Int_t)(badchannelsSSD->GetBadChannelP(i,j)); if(badChannel != 0) { if(layer == 5) nPSideChannelsLayer5 += 1; if(layer == 6) nPSideChannelsLayer6 += 1; nBadPSideChannels += 1; }//badchannel flag != 0 badChannel = (Int_t)(badchannelsSSD->GetBadChannelN(i,j)); if(badChannel != 0) { if(layer == 5) nNSideChannelsLayer5 += 1; if(layer == 6) nNSideChannelsLayer6 += 1; nBadNSideChannels += 1; }//badchannel flag != 0 }//loop over strips if(layer == 5) { if(nPSideChannelsLayer5 > 0) ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset))->Fill(module,499+ladder, 100.*nPSideChannelsLayer5/fgkNumberOfPSideStrips); else ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset))->Fill(module,499+ladder,0.0001); if(nNSideChannelsLayer5 > 0) ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset+1))->Fill(module,499+ladder, 100.*nNSideChannelsLayer5/fgkNumberOfPSideStrips); else ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset+1))->Fill(module,499+ladder,0.0001); }//layer 5 if(layer == 6) { if(nPSideChannelsLayer6 > 0) ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset+2))->Fill(module,599+ladder, 100.*nPSideChannelsLayer6/fgkNumberOfPSideStrips); else ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset+2))->Fill(module,599+ladder,0.0001); if(nNSideChannelsLayer6 > 0) ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset+3))->Fill(module,599+ladder, 100.*nNSideChannelsLayer6/fgkNumberOfPSideStrips); else ((TH2D *)fAliITSQADataMakerRec->GetRawsData(fGenOffset+fSSDRawsOffset-fSSDRawsDAOffset+3))->Fill(module,599+ladder,0.0001); }//layer 6 }//module loop } //____________________________________________________________________________ void AliITSQASSDDataMakerRec::InitRecPoints() { // Initialization for RECPOINTS - SSD - fGenOffset = (fAliITSQADataMakerRec->fRecPointsQAList)->GetEntries(); Int_t nModuleOffset = 500; Int_t nITSTotalModules = AliITSgeomTGeo::GetNModules(); TH1F *fHistSSDModuleIdLayer5 = new TH1F("SSD/Statistics/fHistSSDModuleIdLayer5", "Module Id - Layer 5;Module Id;Entries", fgkSSDMODULESLAYER5, nModuleOffset - 0.5, nITSTotalModules-fgkSSDMODULESLAYER6+0.5); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDModuleIdLayer5, fGenOffset + 0, kTRUE); fSSDhTask += 1; TH1F *fHistSSDModuleIdLayer6 = new TH1F("SSD/Statistics/fHistSSDModuleIdLayer6", "Module Id - Layer 6;Module Id;Entries", fgkSSDMODULESLAYER6, nModuleOffset+fgkSSDMODULESLAYER5 - 0.5, nITSTotalModules + 0.5); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDModuleIdLayer6, fGenOffset + 1, kTRUE); fSSDhTask += 1; TH1F *fHistSSDClusterPerEventLayer5 = new TH1F("SSD/Statistics/fHistSSDClusterPerEventLayer5", "N_{clusters} - Layer 5;N_{clusters};Entries;", 100,0.1,5000); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDClusterPerEventLayer5, fGenOffset + 2, kTRUE); fSSDhTask += 1; TH1F *fHistSSDClusterPerEventLayer6 = new TH1F("SSD/Statistics/fHistSSDClusterPerEventLayer6", "N_{clusters} - Layer 6;N_{clusters};Entries;", 100,0.1,5000); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDClusterPerEventLayer6, fGenOffset + 3, kTRUE); fSSDhTask += 1; TH1F *fHistSSDLocalXLayer5 = new TH1F("SSD/Coordinates/fHistSSDLocalXLayer5", "Local x coord.- Layer 5;x [cm];Entries;", 100,-4.,4.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDLocalXLayer5, fGenOffset + 4, kTRUE); fSSDhTask += 1; TH1F *fHistSSDLocalXLayer6 = new TH1F("SSD/Coordinates/fHistSSDLocalXLayer6", "Local x coord.- Layer 6;x [cm];Entries;", 100,-4.,4.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDLocalXLayer6, fGenOffset + 5, kTRUE); fSSDhTask += 1; TH1F *fHistSSDLocalZLayer5 = new TH1F("SSD/Coordinates/fHistSSDLocalZLayer5", "Local z coord.- Layer 5;z [cm];Entries;", 100,-4.,4.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDLocalZLayer5, fGenOffset + 6, kTRUE); fSSDhTask += 1; TH1F *fHistSSDLocalZLayer6 = new TH1F("SSD/Coordinates/fHistSSDLocalZLayer6", "Local z coord.- Layer 6;z [cm];Entries;", 100,-4.,4.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDLocalZLayer6, fGenOffset + 7, kTRUE); fSSDhTask += 1; TH1F *fHistSSDGlobalXLayer5 = new TH1F("SSD/Coordinates/fHistSSDGlobalXLayer5", "Global x - Layer 5;x [cm];Entries;", 100,-40.,40.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDGlobalXLayer5, fGenOffset + 8, kTRUE); fSSDhTask += 1; TH1F *fHistSSDGlobalXLayer6 = new TH1F("SSD/Coordinates/fHistSSDGlobalXLayer6", "Global x - Layer 6;x [cm];Entries;", 100,-45.,45.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDGlobalXLayer6, fGenOffset + 9, kTRUE); fSSDhTask += 1; TH1F *fHistSSDGlobalYLayer5 = new TH1F("SSD/Coordinates/fHistSSDGlobalYLayer5", "Global y - Layer 5;y [cm];Entries;", 100,-40.,40); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDGlobalYLayer5, fGenOffset + 10, kTRUE); fSSDhTask += 1; TH1F *fHistSSDGlobalYLayer6 = new TH1F("SSD/Coordinates/fHistSSDGlobalYLayer6", "Global y - Layer 6;y [cm];Entries;", 100,-45.,45.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDGlobalYLayer6, fGenOffset + 11, kTRUE); fSSDhTask += 1; TH1F *fHistSSDGlobalZLayer5 = new TH1F("SSD/Coordinates/fHistSSDGlobalZLayer5", "Global z - Layer 5;z [cm];Entries;", 100,-45.,45); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDGlobalZLayer5, fGenOffset + 12, kTRUE); fSSDhTask += 1; TH1F *fHistSSDGlobalZLayer6 = new TH1F("SSD/Coordinates/fHistSSDGlobalZLayer6", "Global z - Layer 6;z [cm];Entries;", 100,-55.,55.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDGlobalZLayer6, fGenOffset + 13, kTRUE); fSSDhTask += 1; TH1F *fHistSSDPhiLayer5 = new TH1F("SSD/Coordinates/fHistSSDPhiLayer5", "#phi - Layer 5;#phi [rad];Entries;", 100,-TMath::Pi(),TMath::Pi()); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDPhiLayer5, fGenOffset + 14, kTRUE); fSSDhTask += 1; TH1F *fHistSSDPhiLayer6 = new TH1F("SSD/Coordinates/fHistSSDPhiLayer6", "#phi - Layer 6;#phi [rad];Entries;", 100,-TMath::Pi(),TMath::Pi()); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDPhiLayer6, fGenOffset + 15, kTRUE); fSSDhTask += 1; TH1F *fHistSSDThetaLayer5 = new TH1F("SSD/Coordinates/fHistSSDThetaLayer5", "#theta - Layer 5;#theta [rad];Entries;", 100,-TMath::Pi(),TMath::Pi()); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDThetaLayer5, fGenOffset + 16, kTRUE); fSSDhTask += 1; TH1F *fHistSSDThetaLayer6 = new TH1F("SSD/Coordinates/fHistSSDThetaLayer6", "#theta - Layer 6;#theta [rad];Entries;", 100,-TMath::Pi(),TMath::Pi()); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDThetaLayer6, fGenOffset + 17, kTRUE); fSSDhTask += 1; TH1F *fHistSSDRadiusLayer5 = new TH1F("SSD/Coordinates/fHistSSDRadiusLayer5", "r - Layer 5;r [cm];Entries;", 100,35.,50.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDRadiusLayer5, fGenOffset + 18, kTRUE); fSSDhTask += 1; TH1F *fHistSSDRadiusLayer6 = new TH1F("SSD/Coordinates/fHistSSDRadiusLayer6", "r - Layer 6;r [cm];Entries;", 100,35.,50.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDRadiusLayer6, fGenOffset + 19, kTRUE); fSSDhTask += 1; TH1F *fHistSSDClusterTypeLayer5 = new TH1F("SSD/ClusterCharge/Layer5/fHistSSDClusterTypeLayer5", "CL type - Layer 5;Cluster type;Entries;", 150,0,150); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDClusterTypeLayer5, fGenOffset + 20, kTRUE); fSSDhTask += 1; TH1F *fHistSSDClusterTypeLayer6 = new TH1F("SSD/ClusterCharge/Layer6/fHistSSDClusterTypeLayer6", "CL type - Layer 6;Cluster type;Entries;", 150,0,150); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDClusterTypeLayer6, fGenOffset + 21, kTRUE); fSSDhTask += 1; TH1F *fHistSSDChargeRatioLayer5 = new TH1F("SSD/ClusterCharge/Layer5/fHistSSDChargeRatioLayer5", "Charge ratio - Layer 5;q_{ratio};Entries;", 100,-2.0,2.0); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargeRatioLayer5, fGenOffset + 22, kTRUE); fSSDhTask += 1; TH1F *fHistSSDChargeRatioLayer6 = new TH1F("SSD/ClusterCharge/Layer6/fHistSSDChargeRatioLayer6", "Charge ratio - Layer 6;q_{ratio};Entries;", 100,-2.0,2.0); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargeRatioLayer6, fGenOffset + 23, kTRUE); fSSDhTask += 1; TH1F *fHistSSDChargekeVLayer5 = new TH1F("SSD/ClusterCharge/Layer5/fHistSSDChargekeVLayer5", "Charge - Layer 5;q [keV];Entries;", 100,0.,300.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargekeVLayer5, fGenOffset + 24); fSSDhTask += 1; TH1F *fHistSSDChargekeVLayer6 = new TH1F("SSD/ClusterCharge/Layer6/fHistSSDChargekeVLayer6", "Charge - Layer 6;q [keV];Entries;", 100,0.,300.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargekeVLayer6, fGenOffset + 25); fSSDhTask += 1; TH1F *fHistSSDChargePSideLayer5 = new TH1F("SSD/ClusterCharge/Layer5/fHistSSDChargePSideLayer5", "Charge P- Layer 5;q_{P} [keV];Entries;", 100,0.,300.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargePSideLayer5, fGenOffset + 26, kTRUE); fSSDhTask += 1; TH1F *fHistSSDChargePSideLayer6 = new TH1F("SSD/ClusterCharge/Layer6/fHistSSDChargePSideLayer6", "Charge P- Layer 6;q_{P} [keV];Entries;", 100,0.,300.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargePSideLayer6, fGenOffset + 27, kTRUE); fSSDhTask += 1; TH1F *fHistSSDChargeNSideLayer5 = new TH1F("SSD/ClusterCharge/Layer5/fHistSSDChargeNSideLayer5", "Charge N- Layer 5;q_{N} [keV];Entries;", 100,0.,300.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargeNSideLayer5, fGenOffset + 28, kTRUE); fSSDhTask += 1; TH1F *fHistSSDChargeNSideLayer6 = new TH1F("SSD/ClusterCharge/Layer6/fHistSSDChargeNSideLayer6", "Charge N- Layer 6;q_{N} [keV];Entries;", 100,0.,300.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargeNSideLayer6, fGenOffset + 29, kTRUE); fSSDhTask += 1; TH1F *fHistSSDChargeRatio2Layer5 = new TH1F("SSD/ClusterCharge/Layer5/fHistSSDChargeRatio2Layer5", "Charge Ratio qN/qP - Layer 5;q_{N}/q_{P};Entries;", 100,0,2); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargeRatio2Layer5, fGenOffset + 30, kTRUE); fSSDhTask += 1; TH1F *fHistSSDChargeRatio2Layer6 = new TH1F("SSD/ClusterCharge/Layer6/fHistSSDChargeRatio2Layer6", "Charge Ratio qN/qP - Layer 6;q_{N}/q_{P};Entries;", 100,0,2); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargeRatio2Layer6, fGenOffset + 31, kTRUE); fSSDhTask += 1; TH2F *fHistSSDChargePNSideLayer5 = new TH2F("SSD/ClusterCharge/Layer5/fHistSSDChargePNSideLayer5", "Charge correlation - Layer 5;q_{P} [keV];q_{N} [keV]", 100,0.,300., 100,0.,300.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargePNSideLayer5, fGenOffset + 32, kTRUE); fSSDhTask += 1; TH2F *fHistSSDChargePNSideLayer6 = new TH2F("SSD/ClusterCharge/Layer6/fHistSSDChargePNSideLayer6", "Charge correlation - Layer 6;q_{P} [keV];q_{N} [keV]", 100,0.,300., 100,0.,300.); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargePNSideLayer6, fGenOffset + 33, kTRUE); fSSDhTask += 1; TH2F *fHistSSDChargeMapLayer5 = new TH2F("SSD/ClusterCharge/Layer5/fHistSSDChargeMapLayer5", "Charge map;N_{modules};N_{Ladders}", fgkSSDMODULESPERLADDERLAYER5, -0.5,fgkSSDMODULESPERLADDERLAYER5+0.5, 3*fgkSSDLADDERSLAYER5, -0.5,fgkSSDLADDERSLAYER5+0.5); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargeMapLayer5, fGenOffset + 34, kTRUE); fSSDhTask += 1; TH2F *fHistSSDChargeMapLayer6 = new TH2F("SSD/ClusterCharge/Layer6/fHistSSDChargeMapLayer6", "Charge map;N_{modules};N_{Ladders}", fgkSSDMODULESPERLADDERLAYER6, -0.5,fgkSSDMODULESPERLADDERLAYER6+0.5, 3*fgkSSDLADDERSLAYER6, -0.5,fgkSSDLADDERSLAYER6+0.5); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDChargeMapLayer6, fGenOffset + 35, kTRUE); fSSDhTask += 1; TH2F *fHistSSDClusterMapLayer5 = new TH2F("SSD/Statistics/Layer5/fHistSSDClusterMapLayer5", "Layer 5;N_{module};N_{ladder}", 22,1,23, 34,500,534); fHistSSDClusterMapLayer5->GetXaxis()->SetTitleColor(1); fHistSSDClusterMapLayer5->SetStats(kFALSE); fHistSSDClusterMapLayer5->GetYaxis()->SetTitleOffset(1.8); fHistSSDClusterMapLayer5->GetXaxis()->SetNdivisions(22); fHistSSDClusterMapLayer5->GetYaxis()->SetNdivisions(34); fHistSSDClusterMapLayer5->GetXaxis()->SetLabelSize(0.03); fHistSSDClusterMapLayer5->GetYaxis()->SetLabelSize(0.03); fHistSSDClusterMapLayer5->GetZaxis()->SetTitleOffset(1.4); fHistSSDClusterMapLayer5->GetZaxis()->SetTitle("N_{clusters}"); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDClusterMapLayer5, fGenOffset + 36); fSSDhTask += 1; TH2F *fHistSSDClusterMapLayer6 = new TH2F("SSD/Statistics/Layer6/fHistSSDClusterMapLayer6", "Layer 6;N_{module};N_{ladder}", 25,1,26, 38,600,638); fHistSSDClusterMapLayer6->GetXaxis()->SetTitleColor(1); fHistSSDClusterMapLayer6->SetStats(kFALSE); fHistSSDClusterMapLayer6->GetYaxis()->SetTitleOffset(1.8); fHistSSDClusterMapLayer6->GetXaxis()->SetNdivisions(25); fHistSSDClusterMapLayer6->GetYaxis()->SetNdivisions(38); fHistSSDClusterMapLayer6->GetXaxis()->SetLabelSize(0.03); fHistSSDClusterMapLayer6->GetYaxis()->SetLabelSize(0.03); fHistSSDClusterMapLayer6->GetZaxis()->SetTitleOffset(1.4); fHistSSDClusterMapLayer6->GetZaxis()->SetTitle("N_{clusters}"); fAliITSQADataMakerRec->Add2RecPointsList(fHistSSDClusterMapLayer6, fGenOffset + 37); fSSDhTask += 1; AliDebug(1,Form("%d SSD Recs histograms booked\n",fSSDhTask)); } //____________________________________________________________________________ void AliITSQASSDDataMakerRec::MakeRecPoints(TTree *clustersTree) { // Fill QA for recpoints - SSD - Int_t gLayer = 0, gLadder = 0, gModule = 0; Int_t lLadderLocationY = 0; TBranch *branchRecP = clustersTree->GetBranch("ITSRecPoints"); if (!branchRecP) { AliError("can't get the branch with the ITS clusters !"); return; } static TClonesArray statRecpoints("AliITSRecPoint"); TClonesArray *recpoints = &statRecpoints; branchRecP->SetAddress(&recpoints); Int_t nClustersLayer5 = 0, nClustersLayer6 = 0; Int_t npoints = 0; Float_t cluglo[3]={0.,0.,0.}; for(Int_t module = 0; module < clustersTree->GetEntries(); module++){ branchRecP->GetEvent(module); npoints += recpoints->GetEntries(); AliITSgeomTGeo::GetModuleId(module,gLayer,gLadder,gModule); lLadderLocationY = 3*gLadder; for(Int_t j = 0;j < recpoints->GetEntries(); j++){ AliITSRecPoint *recp = (AliITSRecPoint*)recpoints->At(j); Int_t layer = recp->GetLayer(); recp->GetGlobalXYZ(cluglo); Float_t radius = TMath::Sqrt(cluglo[0]*cluglo[0]+cluglo[1]*cluglo[1]); Float_t phi = TMath::ATan2(cluglo[1],cluglo[0]); Float_t theta = TMath::ATan2(radius,cluglo[2]); Double_t chargeRatio = recp->GetChargeRatio(); Double_t clusterCharge = recp->GetQ(); Double_t chargePSide = clusterCharge*(1. + chargeRatio); Double_t chargeNSide = clusterCharge*(1. - chargeRatio); if(layer == 4) { fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 0)->Fill(module); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 4)->Fill(recp->GetDetLocalX()); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 6)->Fill(recp->GetDetLocalZ()); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 8)->Fill(cluglo[0]); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 10)->Fill(cluglo[1]); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 12)->Fill(cluglo[2]); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 14)->Fill(phi); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 16)->Fill(theta); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 18)->Fill(radius); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 20)->Fill(recp->GetType()); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 22)->Fill(recp->GetChargeRatio()); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 24)->Fill(recp->GetQ()); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 26)->Fill(chargePSide); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 28)->Fill(chargeNSide); if(chargePSide != 0.) fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 30)->Fill(chargeNSide/chargePSide); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 32)->Fill(chargePSide,chargeNSide); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 34)->SetBinContent(gModule,lLadderLocationY,recp->GetQ()); ((TH2F *)fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 36))->Fill(gModule,499+gLadder,1); nClustersLayer5 += 1; }//layer 5 histograms if(layer == 5) { fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 1)->Fill(module); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 5)->Fill(recp->GetDetLocalX()); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 7)->Fill(recp->GetDetLocalZ()); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 9)->Fill(cluglo[0]); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 11)->Fill(cluglo[1]); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 13)->Fill(cluglo[2]); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 15)->Fill(phi); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 17)->Fill(theta); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 19)->Fill(radius); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 21)->Fill(recp->GetType()); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 23)->Fill(recp->GetChargeRatio()); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 25)->Fill(recp->GetQ()); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 27)->Fill(chargePSide); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 29)->Fill(chargeNSide); if(chargePSide != 0.) fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 31)->Fill(chargeNSide/chargePSide); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 33)->Fill(chargePSide,chargeNSide); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 35)->SetBinContent(gModule,lLadderLocationY,recp->GetQ()); ((TH2F *)fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 37))->Fill(gModule,599+gLadder,1); nClustersLayer6 += 1; }//layer 6 histograms }//rec. points loop }//module loop fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 2)->Fill(nClustersLayer5); fAliITSQADataMakerRec->GetRecPointsData(fGenOffset + 3)->Fill(nClustersLayer6); statRecpoints.Clear(); }