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SiPixelDigiSource.cc
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SiPixelDigiSource.cc
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// -*- C++ -*-
//
// Package: SiPixelMonitorDigi
// Class: SiPixelDigiSource
//
/**\class
Description: Pixel DQM source for Digis
Implementation:
<Notes on implementation>
*/
//
// Original Author: Vincenzo Chiochia
// Created:
//
//
#include "DQM/SiPixelMonitorDigi/interface/SiPixelDigiSource.h"
// Framework
#include "FWCore/ServiceRegistry/interface/Service.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "FWCore/ParameterSet/interface/ParameterSet.h"
// DQM Framework
#include "DQM/SiPixelCommon/interface/SiPixelFolderOrganizer.h"
#include "DQMServices/Core/interface/DQMStore.h"
// Geometry
#include "Geometry/TrackerGeometryBuilder/interface/TrackerGeometry.h"
#include "Geometry/Records/interface/TrackerDigiGeometryRecord.h"
#include "Geometry/TrackerGeometryBuilder/interface/PixelGeomDetUnit.h"
#include "Geometry/CommonTopologies/interface/PixelTopology.h"
#include "Geometry/Records/interface/TrackerTopologyRcd.h"
// DataFormats
#include "DataFormats/DetId/interface/DetId.h"
#include "DataFormats/SiPixelDetId/interface/PixelSubdetector.h"
#include "DataFormats/SiPixelDetId/interface/PixelBarrelName.h"
#include "DataFormats/SiPixelDetId/interface/PixelBarrelNameUpgrade.h"
#include "DataFormats/SiPixelDetId/interface/PixelEndcapName.h"
#include "DataFormats/SiPixelDetId/interface/PixelEndcapNameUpgrade.h"
//
#include <string>
#include <stdlib.h>
#include <iostream>
#include <fstream>
using namespace std;
using namespace edm;
SiPixelDigiSource::SiPixelDigiSource(const edm::ParameterSet& iConfig) :
conf_(iConfig),
src_( conf_.getParameter<edm::InputTag>( "src" ) ),
saveFile( conf_.getUntrackedParameter<bool>("saveFile",false) ),
isPIB( conf_.getUntrackedParameter<bool>("isPIB",false) ),
slowDown( conf_.getUntrackedParameter<bool>("slowDown",false) ),
modOn( conf_.getUntrackedParameter<bool>("modOn",true) ),
twoDimOn( conf_.getUntrackedParameter<bool>("twoDimOn",true) ),
twoDimModOn( conf_.getUntrackedParameter<bool>("twoDimModOn",true) ),
twoDimOnlyLayDisk( conf_.getUntrackedParameter<bool>("twoDimOnlyLayDisk",false) ),
hiRes( conf_.getUntrackedParameter<bool>("hiRes",false) ),
reducedSet( conf_.getUntrackedParameter<bool>("reducedSet",false) ),
ladOn( conf_.getUntrackedParameter<bool>("ladOn",false) ),
layOn( conf_.getUntrackedParameter<bool>("layOn",false) ),
phiOn( conf_.getUntrackedParameter<bool>("phiOn",false) ),
ringOn( conf_.getUntrackedParameter<bool>("ringOn",false) ),
bladeOn( conf_.getUntrackedParameter<bool>("bladeOn",false) ),
diskOn( conf_.getUntrackedParameter<bool>("diskOn",false) ),
bigEventSize( conf_.getUntrackedParameter<int>("bigEventSize",1000) ),
isUpgrade( conf_.getUntrackedParameter<bool>("isUpgrade",false) ),
noOfLayers(0),
noOfDisks(0)
{
//set Token(-s)
srcToken_ = consumes<edm::DetSetVector<PixelDigi> >(conf_.getParameter<edm::InputTag>( "src" ));
topFolderName_ = conf_.getParameter<std::string>("TopFolderName");
firstRun = true;
// find a FED# for the current detId:
ifstream infile(edm::FileInPath("DQM/SiPixelMonitorClient/test/detId.dat").fullPath().c_str(),ios::in);
int nModsInFile=0;
assert(!infile.fail());
int nTOTmodules;
if (isUpgrade) { nTOTmodules=1856; } else { nTOTmodules=1440; }
while(!infile.eof()&&nModsInFile<nTOTmodules) {
infile >> I_name[nModsInFile] >> I_detId[nModsInFile] >> I_fedId[nModsInFile] >> I_linkId1[nModsInFile] >> I_linkId2[nModsInFile];
nModsInFile++;
}
infile.close();
LogInfo ("PixelDQM") << "SiPixelDigiSource::SiPixelDigiSource: Got DQM BackEnd interface"<<endl;
}
SiPixelDigiSource::~SiPixelDigiSource()
{
// do anything here that needs to be done at desctruction time
// (e.g. close files, deallocate resources etc.)
LogInfo ("PixelDQM") << "SiPixelDigiSource::~SiPixelDigiSource: Destructor"<<endl;
}
void
SiPixelDigiSource::beginLuminosityBlock(edm::LuminosityBlock const&, edm::EventSetup const&)
{
if(modOn && nLumiSecs%10==0){
if(averageDigiOccupancy){
nBPIXDigis = 0;
nFPIXDigis = 0;
for(int i=0; i!=40; i++) nDigisPerFed[i]=0;
}
}
if(!modOn){
if(averageDigiOccupancy){
nBPIXDigis = 0;
nFPIXDigis = 0;
for(int i=0; i!=40; i++) nDigisPerFed[i]=0;
}
}
}
void
SiPixelDigiSource::endLuminosityBlock(edm::LuminosityBlock const&, edm::EventSetup const&)
{
nLumiSecs++;
float averageBPIXFed = float(nBPIXDigis)/32.;
float averageFPIXFed = float(nFPIXDigis)/8.;
if(averageDigiOccupancy){
for(int i=0; i!=40; i++){
float averageOcc = 0.;
if(i<32){
if(averageBPIXFed>0.) averageOcc = nDigisPerFed[i]/averageBPIXFed;
}else{
if(averageFPIXFed>0.) averageOcc = nDigisPerFed[i]/averageFPIXFed;
}
if (!modOn){
float entry=(averageDigiOccupancy->getBinContent(i+1) * (nLumiSecs-1) + averageOcc)/nLumiSecs; //this is the mean of the actual value + the bin entry already present in the histo, that is what we want in Offline GUI
averageDigiOccupancy->setBinContent(i+1,entry);
}
if (modOn && nLumiSecs%10==0){
averageDigiOccupancy->setBinContent(i+1,averageOcc); // "modOn" basically mean Online DQM, in this case fill histos with actual value of digi fraction per fed for each ten lumisections
if (avgfedDigiOccvsLumi){
avgfedDigiOccvsLumi->setBinContent(int(nLumiSecs/10), i+1, averageOcc); //fill with the mean over ten the 10 lumisections, previous code was filling this histo only with last event of each 10th lumisection
}//endif meX5
}//endif modOn
}
}
}
void SiPixelDigiSource::dqmBeginRun(const edm::Run& r, const edm::EventSetup& iSetup){
LogInfo ("PixelDQM") << " SiPixelDigiSource::beginJob - Initialisation ... " << std::endl;
LogInfo ("PixelDQM") << "Mod/Lad/Lay/Phi " << modOn << "/" << ladOn << "/"
<< layOn << "/" << phiOn << std::endl;
LogInfo ("PixelDQM") << "Blade/Disk/Ring" << bladeOn << "/" << diskOn << "/"
<< ringOn << std::endl;
LogInfo ("PixelDQM") << "2DIM IS " << twoDimOn << " and set to high resolution? " << hiRes << "\n";
if(firstRun){
eventNo = 0;
lumSec = 0;
nLumiSecs = 0;
nBigEvents = 0;
nBPIXDigis = 0;
nFPIXDigis = 0;
for(int i=0; i!=40; i++) nDigisPerFed[i]=0;
for(int i=0; i!=4; i++) nDigisPerDisk[i]=0;
nDP1P1M1 = 0;
nDP1P1M2 = 0;
nDP1P1M3 = 0;
nDP1P1M4 = 0;
nDP1P2M1 = 0;
nDP1P2M2 = 0;
nDP1P2M3 = 0;
nDP2P1M1 = 0;
nDP2P1M2 = 0;
nDP2P1M3 = 0;
nDP2P1M4 = 0;
nDP2P2M1 = 0;
nDP2P2M2 = 0;
nDP2P2M3 = 0;
nDP3P1M1 = 0;
nDP3P2M1 = 0;
nDM1P1M1 = 0;
nDM1P1M2 = 0;
nDM1P1M3 = 0;
nDM1P1M4 = 0;
nDM1P2M1 = 0;
nDM1P2M2 = 0;
nDM1P2M3 = 0;
nDM2P1M1 = 0;
nDM2P1M2 = 0;
nDM2P1M3 = 0;
nDM2P1M4 = 0;
nDM2P2M1 = 0;
nDM2P2M2 = 0;
nDM2P2M3 = 0;
nDM3P1M1 = 0;
nDM3P2M1 = 0;
nL1M1 = 0;
nL1M2 = 0;
nL1M3 = 0;
nL1M4 = 0;
nL2M1 = 0;
nL2M2 = 0;
nL2M3 = 0;
nL2M4 = 0;
nL3M1 = 0;
nL3M2 = 0;
nL3M3 = 0;
nL3M4 = 0;
nL4M1 = 0;
nL4M2 = 0;
nL4M3 = 0;
nL4M4 = 0;
// Build map
buildStructure(iSetup);
// Book Monitoring Elements
firstRun = false;
}
}
void SiPixelDigiSource::bookHistograms(DQMStore::IBooker & iBooker, edm::Run const &, const edm::EventSetup & iSetup){
bookMEs(iBooker, iSetup);
}
//------------------------------------------------------------------
// Method called for every event
//------------------------------------------------------------------
void SiPixelDigiSource::analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup)
{
edm::ESHandle<TrackerTopology> tTopoHandle;
iSetup.get<TrackerTopologyRcd>().get(tTopoHandle);
const TrackerTopology *pTT = tTopoHandle.product();
eventNo++;
// get input data
edm::Handle< edm::DetSetVector<PixelDigi> > input;
iEvent.getByToken(srcToken_, input);
if (!input.isValid()) return;
int bx = iEvent.bunchCrossing();
int lumiSection = (int)iEvent.luminosityBlock();
int nEventDigis = 0; int nActiveModules = 0;
std::map<uint32_t,SiPixelDigiModule*>::iterator struct_iter;
for(int i=0; i!=192; i++) numberOfDigis[i]=0;
for(int i=0; i!=1152; i++) nDigisPerChan[i]=0;
for(int i=0; i!=4; i++) nDigisPerDisk[i]=0;
int NzeroROCs[2] = {0,-672};
int NloEffROCs[2] = {0,-672};
for (struct_iter = thePixelStructure.begin() ; struct_iter != thePixelStructure.end() ; struct_iter++) {
int numberOfDigisMod = (*struct_iter).second->fill(*input, iSetup,
meNDigisCOMBBarrel_, meNDigisCHANBarrel_,meNDigisCHANBarrelLs_,meNDigisCOMBEndcap_,
modOn, ladOn, layOn, phiOn,
bladeOn, diskOn, ringOn,
twoDimOn, reducedSet, twoDimModOn, twoDimOnlyLayDisk,
nDigisA, nDigisB, isUpgrade);
if (modOn && twoDimOnlyLayDisk && lumiSection%10 == 0) (*struct_iter).second->resetRocMap();
bool barrel = DetId((*struct_iter).first).subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel);
bool endcap = DetId((*struct_iter).first).subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap);
if(numberOfDigisMod>0){
nEventDigis = nEventDigis + numberOfDigisMod;
nActiveModules++;
int nBPiXmodules;
int nTOTmodules;
if (isUpgrade) {
nBPiXmodules=1184;
nTOTmodules=1856;
} else {
nBPiXmodules=768;
nTOTmodules=1440;
}
if(barrel){ // Barrel
nBPIXDigis = nBPIXDigis + numberOfDigisMod;
for(int i=0; i!=nBPiXmodules; ++i){
if((*struct_iter).first == I_detId[i]){
nDigisPerFed[I_fedId[i]]=nDigisPerFed[I_fedId[i]]+numberOfDigisMod;
int index1 = 0; int index2 = 0;
if(I_linkId1[i]>0) index1 = I_fedId[i]*36+(I_linkId1[i]-1);
if(I_linkId2[i]>0) index2 = I_fedId[i]*36+(I_linkId2[i]-1);
if(nDigisA>0 && I_linkId1[i]>0) nDigisPerChan[index1]=nDigisPerChan[index1]+nDigisA;
if(nDigisB>0 && I_linkId2[i]>0) nDigisPerChan[index2]=nDigisPerChan[index2]+nDigisB;
i=(nBPiXmodules-1);
}
}
}else if(endcap && !isUpgrade){ // Endcap
nFPIXDigis = nFPIXDigis + numberOfDigisMod;
PixelEndcapName::HalfCylinder side = PixelEndcapName(DetId((*struct_iter).first),pTT,isUpgrade).halfCylinder();
int disk = PixelEndcapName(DetId((*struct_iter).first),pTT,isUpgrade).diskName();
int blade = PixelEndcapName(DetId((*struct_iter).first),pTT,isUpgrade).bladeName();
int panel = PixelEndcapName(DetId((*struct_iter).first),pTT,isUpgrade).pannelName();
int module = PixelEndcapName(DetId((*struct_iter).first),pTT,isUpgrade).plaquetteName();
int iter=0; int i=0;
if(side==PixelEndcapName::mI){
if(disk==1){
i=0;
if(panel==1){ if(module==1) nDM1P1M1+=numberOfDigisMod;
else if(module==2) nDM1P1M2+=numberOfDigisMod;
else if(module==3) nDM1P1M3+=numberOfDigisMod;
else if(module==4) nDM1P1M4+=numberOfDigisMod;}
else if(panel==2){ if(module==1) nDM1P2M1+=numberOfDigisMod;
else if(module==2) nDM1P2M2+=numberOfDigisMod;
else if(module==3) nDM1P2M3+=numberOfDigisMod; }
if(blade<13 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if(disk==2){
i=24;
if(panel==1){ if(module==1) nDM2P1M1+=numberOfDigisMod;
else if(module==2) nDM2P1M2+=numberOfDigisMod;
else if(module==3) nDM2P1M3+=numberOfDigisMod;
else if(module==4) nDM2P1M4+=numberOfDigisMod;}
else if(panel==2){ if(module==1) nDM2P2M1+=numberOfDigisMod;
else if(module==2) nDM2P2M2+=numberOfDigisMod;
else if(module==3) nDM2P2M3+=numberOfDigisMod; }
if(blade<13 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}
}else if(side==PixelEndcapName::mO){
if(disk==1){
i=48;
if(panel==1){ if(module==1) nDM1P1M1+=numberOfDigisMod;
else if(module==2) nDM1P1M2+=numberOfDigisMod;
else if(module==3) nDM1P1M3+=numberOfDigisMod;
else if(module==4) nDM1P1M4+=numberOfDigisMod;}
else if(panel==2){ if(module==1) nDM1P2M1+=numberOfDigisMod;
else if(module==2) nDM1P2M2+=numberOfDigisMod;
else if(module==3) nDM1P2M3+=numberOfDigisMod; }
if(blade<13 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if(disk==2){
i=72;
if(panel==1){ if(module==1) nDM2P1M1+=numberOfDigisMod;
else if(module==2) nDM2P1M2+=numberOfDigisMod;
else if(module==3) nDM2P1M3+=numberOfDigisMod;
else if(module==4) nDM2P1M4+=numberOfDigisMod;}
else if(panel==2){ if(module==1) nDM2P2M1+=numberOfDigisMod;
else if(module==2) nDM2P2M2+=numberOfDigisMod;
else if(module==3) nDM2P2M3+=numberOfDigisMod; }
if(blade<13 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}
}else if(side==PixelEndcapName::pI){
if(disk==1){
i=96;
if(panel==1){ if(module==1) nDP1P1M1+=numberOfDigisMod;
else if(module==2) nDP1P1M2+=numberOfDigisMod;
else if(module==3) nDP1P1M3+=numberOfDigisMod;
else if(module==4) nDP1P1M4+=numberOfDigisMod;}
else if(panel==2){ if(module==1) nDP1P2M1+=numberOfDigisMod;
else if(module==2) nDP1P2M2+=numberOfDigisMod;
else if(module==3) nDP1P2M3+=numberOfDigisMod; }
if(blade<13 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if(disk==2){
i=120;
if(panel==1){ if(module==1) nDP2P1M1+=numberOfDigisMod;
else if(module==2) nDP2P1M2+=numberOfDigisMod;
else if(module==3) nDP2P1M3+=numberOfDigisMod;
else if(module==4) nDP2P1M4+=numberOfDigisMod;}
else if(panel==2){ if(module==1) nDP2P2M1+=numberOfDigisMod;
else if(module==2) nDP2P2M2+=numberOfDigisMod;
else if(module==3) nDP2P2M3+=numberOfDigisMod; }
if(blade<13 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}
}else if(side==PixelEndcapName::pO){
if(disk==1){
i=144;
if(panel==1){ if(module==1) nDP1P1M1+=numberOfDigisMod;
else if(module==2) nDP1P1M2+=numberOfDigisMod;
else if(module==3) nDP1P1M3+=numberOfDigisMod;
else if(module==4) nDP1P1M4+=numberOfDigisMod;}
else if(panel==2){ if(module==1) nDP1P2M1+=numberOfDigisMod;
else if(module==2) nDP1P2M2+=numberOfDigisMod;
else if(module==3) nDP1P2M3+=numberOfDigisMod; }
if(blade<13 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if(disk==2){
i=168;
if(panel==1){ if(module==1) nDP2P1M1+=numberOfDigisMod;
else if(module==2) nDP2P1M2+=numberOfDigisMod;
else if(module==3) nDP2P1M3+=numberOfDigisMod;
else if(module==4) nDP2P1M4+=numberOfDigisMod;}
else if(panel==2){ if(module==1) nDP2P2M1+=numberOfDigisMod;
else if(module==2) nDP2P2M2+=numberOfDigisMod;
else if(module==3) nDP2P2M3+=numberOfDigisMod; }
if(blade<13 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}
}
numberOfDigis[iter]=numberOfDigis[iter]+numberOfDigisMod;
for(int i=nBPiXmodules; i!=nTOTmodules; i++){
if((*struct_iter).first == I_detId[i]){
nDigisPerFed[I_fedId[i]]=nDigisPerFed[I_fedId[i]]+numberOfDigisMod;
i=nTOTmodules-1;
}
}
} //endif Barrel/(Endcap && !isUpgrade)
else if (endcap && isUpgrade) {
nFPIXDigis = nFPIXDigis + numberOfDigisMod;
PixelEndcapName::HalfCylinder side = PixelEndcapName(DetId((*struct_iter).first),pTT,isUpgrade).halfCylinder();
int disk = PixelEndcapName(DetId((*struct_iter).first),pTT,isUpgrade).diskName();
int blade = PixelEndcapName(DetId((*struct_iter).first),pTT,isUpgrade).bladeName();
int panel = PixelEndcapName(DetId((*struct_iter).first),pTT,isUpgrade).pannelName();
int module = PixelEndcapName(DetId((*struct_iter).first),pTT,isUpgrade).plaquetteName();
int iter=0; int i=0;
if(side==PixelEndcapName::mI){
if(disk==1){
i=0;
if(panel==1){ if(module==1) nDM1P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDM1P2M1+=numberOfDigisMod; }
if(blade<12 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if(disk==2){
i=22;
if(panel==1){ if(module==1) nDM2P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDM2P2M1+=numberOfDigisMod; }
if(blade<12 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if(disk==3){
i=44;
if(panel==1){ if(module==1) nDM3P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDM3P2M1+=numberOfDigisMod; }
if(blade<12 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}
}else if(side==PixelEndcapName::mO){
if(disk==1){
i=66;
if(panel==1){ if(module==1) nDM1P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDM1P2M1+=numberOfDigisMod; }
if(blade<18 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if(disk==2){
i=100;
if(panel==1){ if(module==1) nDM2P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDM2P2M1+=numberOfDigisMod; }
if(blade<18 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if (disk==3){
i=134;
if(panel==1){ if(module==1) nDM3P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDM3P2M1+=numberOfDigisMod; }
if(blade<18 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}
}else if(side==PixelEndcapName::pI){
if(disk==1){
i=168;
if(panel==1){ if(module==1) nDP1P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDP1P2M1+=numberOfDigisMod; }
if(blade<12 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if(disk==2){
i=190;
if(panel==1){ if(module==1) nDP2P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDP2P2M1+=numberOfDigisMod; }
if(blade<12 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if(disk==3){
i=212;
if(panel==1){ if(module==1) nDP3P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDP3P2M1+=numberOfDigisMod; }
if(blade<12 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}
}else if(side==PixelEndcapName::pO){
if(disk==1){
i=234;
if(panel==1){ if(module==1) nDP1P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDP1P2M1+=numberOfDigisMod; }
if(blade<18 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if(disk==2){
i=268;
if(panel==1){ if(module==1) nDP2P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDP2P2M1+=numberOfDigisMod; }
if(blade<18 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}else if(disk==3){
i=302;
if(panel==1){ if(module==1) nDP3P1M1+=numberOfDigisMod; }
else if(panel==2){ if(module==1) nDP3P2M1+=numberOfDigisMod; }
if(blade<18 && blade>0 && (panel==1 || panel==2)) iter = i+2*(blade-1)+(panel-1);
}
}
numberOfDigis[iter]=numberOfDigis[iter]+numberOfDigisMod;
for(int i=nBPiXmodules; i!=nTOTmodules; i++){
if((*struct_iter).first == I_detId[i]){
nDigisPerFed[I_fedId[i]]=nDigisPerFed[I_fedId[i]]+numberOfDigisMod;
i=nTOTmodules-1;
}
}
}//endif(Endcap && isUpgrade)
} // endif any digis in this module
if (twoDimOnlyLayDisk && lumiSection%10 > 2){
std::pair<int,int> tempPair = (*struct_iter).second->getZeroLoEffROCs();
if (barrel){
NzeroROCs[0] += tempPair.first;
NloEffROCs[0] += tempPair.second;
}
else if (endcap){
NzeroROCs[1] += tempPair.first;
NloEffROCs[1] += tempPair.second;
}
}
} // endfor loop over all modules
if (lumiSection%10> 2){
for (int i =0; i < 2; ++i) NloEffROCs[i] = NloEffROCs[i] - NzeroROCs[i];
if(noOccROCsBarrel) noOccROCsBarrel->setBinContent(1+lumiSection/10, NzeroROCs[0]);
if(loOccROCsBarrel) loOccROCsBarrel->setBinContent(1+lumiSection/10, NloEffROCs[0]);
if(noOccROCsEndcap) noOccROCsEndcap->setBinContent(1+lumiSection/10, NzeroROCs[1]);
if(loOccROCsEndcap) loOccROCsEndcap->setBinContent(1+lumiSection/10, NloEffROCs[1]);
}
if (noOfDisks == 2) { // if (!isUpgrade)
if(meNDigisCHANEndcap_){ for(int j=0; j!=192; j++) if(numberOfDigis[j]>0) meNDigisCHANEndcap_->Fill((float)numberOfDigis[j]);}
if(meNDigisCHANEndcapDms_.at(0)){ for(int j=0; j!=72; j++) if((j<24||j>47)&&numberOfDigis[j]>0) meNDigisCHANEndcapDms_.at(0)->Fill((float)numberOfDigis[j]);}
if(meNDigisCHANEndcapDms_.at(1)){ for(int j=24; j!=96; j++) if((j<48||j>71)&&numberOfDigis[j]>0) meNDigisCHANEndcapDms_.at(1)->Fill((float)numberOfDigis[j]);}
if(meNDigisCHANEndcapDps_.at(0)){ for(int j=96; j!=168; j++) if((j<120||j>143)&&numberOfDigis[j]>0) meNDigisCHANEndcapDps_.at(0)->Fill((float)numberOfDigis[j]);}
if(meNDigisCHANEndcapDps_.at(1)){ for(int j=120; j!=192; j++) if((j<144||j>167)&&numberOfDigis[j]>0) meNDigisCHANEndcapDps_.at(1)->Fill((float)numberOfDigis[j]);}
}
else if (noOfDisks == 3) { // else if (isUpgrade)
if(meNDigisCHANEndcap_){ for(int j=0; j!=336; j++) if(numberOfDigis[j]>0) meNDigisCHANEndcap_->Fill((float)numberOfDigis[j]);}
if(meNDigisCHANEndcapDms_.at(0)){ for(int j=0; j!=100; j++) if((j<22||j>65)&&numberOfDigis[j]>0) meNDigisCHANEndcapDms_.at(0)->Fill((float)numberOfDigis[j]);}
if(meNDigisCHANEndcapDms_.at(1)){ for(int j=22; j!=134; j++) if((j<44||j>99)&&numberOfDigis[j]>0) meNDigisCHANEndcapDms_.at(1)->Fill((float)numberOfDigis[j]);}
if(meNDigisCHANEndcapDms_.at(2)){ for(int j=44; j!=168; j++) if((j<66||j>133)&&numberOfDigis[j]>0) meNDigisCHANEndcapDms_.at(2)->Fill((float)numberOfDigis[j]);}
if(meNDigisCHANEndcapDps_.at(0)){ for(int j=168; j!=268; j++) if((j<190||j>233)&&numberOfDigis[j]>0) meNDigisCHANEndcapDps_.at(0)->Fill((float)numberOfDigis[j]);}
if(meNDigisCHANEndcapDps_.at(1)){ for(int j=190; j!=302; j++) if((j<212||j>267)&&numberOfDigis[j]>0) meNDigisCHANEndcapDps_.at(1)->Fill((float)numberOfDigis[j]);}
if(meNDigisCHANEndcapDps_.at(2)){ for(int j=212; j!=336; j++) if((j<234||j>301)&&numberOfDigis[j]>0) meNDigisCHANEndcapDps_.at(2)->Fill((float)numberOfDigis[j]);}
}
if(meNDigisCHANBarrelCh1_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+0]>0) meNDigisCHANBarrelCh1_->Fill((float)nDigisPerChan[i*36+0]);}
if(meNDigisCHANBarrelCh2_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+1]>0) meNDigisCHANBarrelCh2_->Fill((float)nDigisPerChan[i*36+1]);}
if(meNDigisCHANBarrelCh3_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+2]>0) meNDigisCHANBarrelCh3_->Fill((float)nDigisPerChan[i*36+2]);}
if(meNDigisCHANBarrelCh4_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+3]>0) meNDigisCHANBarrelCh4_->Fill((float)nDigisPerChan[i*36+3]);}
if(meNDigisCHANBarrelCh5_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+4]>0) meNDigisCHANBarrelCh5_->Fill((float)nDigisPerChan[i*36+4]);}
if(meNDigisCHANBarrelCh6_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+5]>0) meNDigisCHANBarrelCh6_->Fill((float)nDigisPerChan[i*36+5]);}
if(meNDigisCHANBarrelCh7_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+6]>0) meNDigisCHANBarrelCh7_->Fill((float)nDigisPerChan[i*36+6]);}
if(meNDigisCHANBarrelCh8_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+7]>0) meNDigisCHANBarrelCh8_->Fill((float)nDigisPerChan[i*36+7]);}
if(meNDigisCHANBarrelCh9_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+8]>0) meNDigisCHANBarrelCh9_->Fill((float)nDigisPerChan[i*36+8]);}
if(meNDigisCHANBarrelCh10_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+9]>0) meNDigisCHANBarrelCh10_->Fill((float)nDigisPerChan[i*36+9]);}
if(meNDigisCHANBarrelCh11_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+10]>0) meNDigisCHANBarrelCh11_->Fill((float)nDigisPerChan[i*36+10]);}
if(meNDigisCHANBarrelCh12_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+11]>0) meNDigisCHANBarrelCh12_->Fill((float)nDigisPerChan[i*36+11]);}
if(meNDigisCHANBarrelCh13_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+12]>0) meNDigisCHANBarrelCh13_->Fill((float)nDigisPerChan[i*36+12]);}
if(meNDigisCHANBarrelCh14_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+13]>0) meNDigisCHANBarrelCh14_->Fill((float)nDigisPerChan[i*36+13]);}
if(meNDigisCHANBarrelCh15_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+14]>0) meNDigisCHANBarrelCh15_->Fill((float)nDigisPerChan[i*36+14]);}
if(meNDigisCHANBarrelCh16_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+15]>0) meNDigisCHANBarrelCh16_->Fill((float)nDigisPerChan[i*36+15]);}
if(meNDigisCHANBarrelCh17_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+16]>0) meNDigisCHANBarrelCh17_->Fill((float)nDigisPerChan[i*36+16]);}
if(meNDigisCHANBarrelCh18_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+17]>0) meNDigisCHANBarrelCh18_->Fill((float)nDigisPerChan[i*36+17]);}
if(meNDigisCHANBarrelCh19_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+18]>0) meNDigisCHANBarrelCh19_->Fill((float)nDigisPerChan[i*36+18]);}
if(meNDigisCHANBarrelCh20_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+19]>0) meNDigisCHANBarrelCh20_->Fill((float)nDigisPerChan[i*36+19]);}
if(meNDigisCHANBarrelCh21_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+20]>0) meNDigisCHANBarrelCh21_->Fill((float)nDigisPerChan[i*36+20]);}
if(meNDigisCHANBarrelCh22_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+21]>0) meNDigisCHANBarrelCh22_->Fill((float)nDigisPerChan[i*36+21]);}
if(meNDigisCHANBarrelCh23_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+22]>0) meNDigisCHANBarrelCh23_->Fill((float)nDigisPerChan[i*36+22]);}
if(meNDigisCHANBarrelCh24_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+23]>0) meNDigisCHANBarrelCh24_->Fill((float)nDigisPerChan[i*36+23]);}
if(meNDigisCHANBarrelCh25_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+24]>0) meNDigisCHANBarrelCh25_->Fill((float)nDigisPerChan[i*36+24]);}
if(meNDigisCHANBarrelCh26_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+25]>0) meNDigisCHANBarrelCh26_->Fill((float)nDigisPerChan[i*36+25]);}
if(meNDigisCHANBarrelCh27_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+26]>0) meNDigisCHANBarrelCh27_->Fill((float)nDigisPerChan[i*36+26]);}
if(meNDigisCHANBarrelCh28_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+27]>0) meNDigisCHANBarrelCh28_->Fill((float)nDigisPerChan[i*36+27]);}
if(meNDigisCHANBarrelCh29_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+28]>0) meNDigisCHANBarrelCh29_->Fill((float)nDigisPerChan[i*36+28]);}
if(meNDigisCHANBarrelCh30_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+29]>0) meNDigisCHANBarrelCh30_->Fill((float)nDigisPerChan[i*36+29]);}
if(meNDigisCHANBarrelCh31_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+30]>0) meNDigisCHANBarrelCh31_->Fill((float)nDigisPerChan[i*36+30]);}
if(meNDigisCHANBarrelCh32_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+31]>0) meNDigisCHANBarrelCh32_->Fill((float)nDigisPerChan[i*36+31]);}
if(meNDigisCHANBarrelCh33_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+32]>0) meNDigisCHANBarrelCh33_->Fill((float)nDigisPerChan[i*36+32]);}
if(meNDigisCHANBarrelCh34_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+33]>0) meNDigisCHANBarrelCh34_->Fill((float)nDigisPerChan[i*36+33]);}
if(meNDigisCHANBarrelCh35_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+34]>0) meNDigisCHANBarrelCh35_->Fill((float)nDigisPerChan[i*36+34]);}
if(meNDigisCHANBarrelCh36_){ for(int i=0; i!=32; i++) if(nDigisPerChan[i*36+35]>0) meNDigisCHANBarrelCh36_->Fill((float)nDigisPerChan[i*36+35]);}
// Rate of events with >N digis:
if(nEventDigis>bigEventSize){
if(bigEventRate) bigEventRate->Fill(lumiSection,1./23.);
}
// Rate of pixel events and total number of pixel events per BX:
if(nActiveModules>=4){
if(pixEvtsPerBX) pixEvtsPerBX->Fill(float(bx));
if(pixEventRate) pixEventRate->Fill(lumiSection, 1./23.);
}
// slow down...
if(slowDown) usleep(10000);
}
//------------------------------------------------------------------
// Build data structure
//------------------------------------------------------------------
void SiPixelDigiSource::buildStructure(const edm::EventSetup& iSetup){
edm::ESHandle<TrackerTopology> tTopoHandle;
iSetup.get<TrackerTopologyRcd>().get(tTopoHandle);
const TrackerTopology *pTT = tTopoHandle.product();
LogInfo ("PixelDQM") <<" SiPixelDigiSource::buildStructure" ;
edm::ESHandle<TrackerGeometry> pDD;
iSetup.get<TrackerDigiGeometryRecord>().get( pDD );
LogVerbatim ("PixelDQM") << " *** Geometry node for TrackerGeom is "<<&(*pDD)<<std::endl;
LogVerbatim ("PixelDQM") << " *** I have " << pDD->dets().size() <<" detectors"<<std::endl;
LogVerbatim ("PixelDQM") << " *** I have " << pDD->detTypes().size() <<" types"<<std::endl;
for(TrackerGeometry::DetContainer::const_iterator it = pDD->dets().begin(); it != pDD->dets().end(); it++){
if(dynamic_cast<PixelGeomDetUnit const *>((*it))!=0){
DetId detId = (*it)->geographicalId();
const GeomDetUnit * geoUnit = pDD->idToDetUnit( detId );
const PixelGeomDetUnit * pixDet = dynamic_cast<const PixelGeomDetUnit*>(geoUnit);
int nrows = (pixDet->specificTopology()).nrows();
int ncols = (pixDet->specificTopology()).ncolumns();
if(detId.subdetId() == static_cast<int>(PixelSubdetector::PixelBarrel)) {
if(isPIB) continue;
LogDebug ("PixelDQM") << " ---> Adding Barrel Module " << detId.rawId() << endl;
uint32_t id = detId();
int layer = PixelBarrelName(DetId(id),pTT,isUpgrade).layerName();
if (layer > noOfLayers) noOfLayers = layer;
SiPixelDigiModule* theModule = new SiPixelDigiModule(id, ncols, nrows);
thePixelStructure.insert(pair<uint32_t,SiPixelDigiModule*> (id,theModule));
} else if((detId.subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap)) && (!isUpgrade)) {
LogDebug ("PixelDQM") << " ---> Adding Endcap Module " << detId.rawId() << endl;
uint32_t id = detId();
SiPixelDigiModule* theModule = new SiPixelDigiModule(id, ncols, nrows);
PixelEndcapName::HalfCylinder side = PixelEndcapName(DetId(id),pTT,isUpgrade).halfCylinder();
int disk = PixelEndcapName(DetId(id),pTT,isUpgrade).diskName();
if (disk > noOfDisks) noOfDisks = disk;
int blade = PixelEndcapName(DetId(id),pTT,isUpgrade).bladeName();
int panel = PixelEndcapName(DetId(id),pTT,isUpgrade).pannelName();
int module = PixelEndcapName(DetId(id),pTT,isUpgrade).plaquetteName();
char sside[80]; sprintf(sside, "HalfCylinder_%i",side);
char sdisk[80]; sprintf(sdisk, "Disk_%i",disk);
char sblade[80]; sprintf(sblade, "Blade_%02i",blade);
char spanel[80]; sprintf(spanel, "Panel_%i",panel);
char smodule[80];sprintf(smodule,"Module_%i",module);
std::string side_str = sside;
std::string disk_str = sdisk;
bool mask = side_str.find("HalfCylinder_1")!=string::npos||
side_str.find("HalfCylinder_2")!=string::npos||
side_str.find("HalfCylinder_4")!=string::npos||
disk_str.find("Disk_2")!=string::npos;
// clutch to take all of FPIX, but no BPIX:
mask = false;
if(isPIB && mask) continue;
thePixelStructure.insert(pair<uint32_t,SiPixelDigiModule*> (id,theModule));
} else if( (detId.subdetId() == static_cast<int>(PixelSubdetector::PixelEndcap)) && (isUpgrade)) {
LogDebug ("PixelDQM") << " ---> Adding Endcap Module " << detId.rawId() << endl;
uint32_t id = detId();
SiPixelDigiModule* theModule = new SiPixelDigiModule(id, ncols, nrows);
PixelEndcapName::HalfCylinder side = PixelEndcapName(DetId(id),pTT,isUpgrade).halfCylinder();
int disk = PixelEndcapName(DetId(id),pTT,isUpgrade).diskName();
if (disk > noOfDisks) noOfDisks = disk;
int blade = PixelEndcapName(DetId(id),pTT,isUpgrade).bladeName();
int panel = PixelEndcapName(DetId(id),pTT,isUpgrade).pannelName();
int module = PixelEndcapName(DetId(id),pTT,isUpgrade).plaquetteName();
char sside[80]; sprintf(sside, "HalfCylinder_%i",side);
char sdisk[80]; sprintf(sdisk, "Disk_%i",disk);
char sblade[80]; sprintf(sblade, "Blade_%02i",blade);
char spanel[80]; sprintf(spanel, "Panel_%i",panel);
char smodule[80];sprintf(smodule,"Module_%i",module);
std::string side_str = sside;
std::string disk_str = sdisk;
bool mask = side_str.find("HalfCylinder_1")!=string::npos||
side_str.find("HalfCylinder_2")!=string::npos||
side_str.find("HalfCylinder_4")!=string::npos||
disk_str.find("Disk_2")!=string::npos;
// clutch to take all of FPIX, but no BPIX:
mask = false;
if(isPIB && mask) continue;
thePixelStructure.insert(pair<uint32_t,SiPixelDigiModule*> (id,theModule));
}//end_elseif(isUpgrade)
}
}
LogInfo ("PixelDQM") << " *** Pixel Structure Size " << thePixelStructure.size() << endl;
}
//------------------------------------------------------------------
// Book MEs
//------------------------------------------------------------------
void SiPixelDigiSource::bookMEs(DQMStore::IBooker & iBooker, const edm::EventSetup& iSetup){
// Get DQM interface
iBooker.setCurrentFolder(topFolderName_);
char title[80]; sprintf(title, "Rate of events with >%i digis;LumiSection;Rate [Hz]",bigEventSize);
bigEventRate = iBooker.book1D("bigEventRate",title,5000,0.,5000.);
char title1[80]; sprintf(title1, "Pixel events vs. BX;BX;# events");
pixEvtsPerBX = iBooker.book1D("pixEvtsPerBX",title1,3565,0.,3565.);
char title2[80]; sprintf(title2, "Rate of Pixel events;LumiSection;Rate [Hz]");
pixEventRate = iBooker.book1D("pixEventRate",title2,5000,0.,5000.);
char title3[80]; sprintf(title3, "Number of Zero-Occupancy Barrel ROCs;LumiSection;N_{ZERO-OCCUPANCY} Barrel ROCs");
noOccROCsBarrel = iBooker.book1D("noOccROCsBarrel",title3,500,0.,5000.);
char title4[80]; sprintf(title4, "Number of Low-Efficiency Barrel ROCs;LumiSection;N_{LO EFF} Barrel ROCs");
loOccROCsBarrel = iBooker.book1D("loOccROCsBarrel",title4,500,0.,5000.);
char title5[80]; sprintf(title5, "Number of Zero-Occupancy Endcap ROCs;LumiSection;N_{ZERO-OCCUPANCY} Endcap ROCs");
noOccROCsEndcap = iBooker.book1D("noOccROCsEndcap",title5,500,0.,5000.);
char title6[80]; sprintf(title6, "Number of Low-Efficiency Endcap ROCs;LumiSection;N_{LO EFF} Endcap ROCs");
loOccROCsEndcap = iBooker.book1D("loOccROCsEndcap",title6,500,0.,5000.);
char title7[80]; sprintf(title7, "Average digi occupancy per FED;FED;NDigis/<NDigis>");
averageDigiOccupancy = iBooker.book1D("averageDigiOccupancy",title7,40,-0.5,39.5);
averageDigiOccupancy->setLumiFlag();
if(modOn){
char title4[80]; sprintf(title4, "FED Digi Occupancy (NDigis/<NDigis>) vs LumiSections;Lumi Section;FED");
avgfedDigiOccvsLumi = iBooker.book2D ("avgfedDigiOccvsLumi", title4, 320,0., 3200., 40, -0.5, 39.5);
}
std::map<uint32_t,SiPixelDigiModule*>::iterator struct_iter;
SiPixelFolderOrganizer theSiPixelFolder(false);
for(struct_iter = thePixelStructure.begin(); struct_iter != thePixelStructure.end(); struct_iter++){
/// Create folder tree and book histograms
if(modOn){
if(theSiPixelFolder.setModuleFolder(iBooker,(*struct_iter).first,0,isUpgrade)){
(*struct_iter).second->book( conf_,iSetup,iBooker,0,twoDimOn,hiRes, reducedSet, twoDimModOn, isUpgrade);
} else {
if(!isPIB) throw cms::Exception("LogicError")
<< "[SiPixelDigiSource::bookMEs] Creation of DQM folder failed";
}
}
if(ladOn){
if(theSiPixelFolder.setModuleFolder(iBooker,(*struct_iter).first,1,isUpgrade)){
(*struct_iter).second->book( conf_,iSetup,iBooker,1,twoDimOn,hiRes, reducedSet, isUpgrade);
} else {
LogDebug ("PixelDQM") << "PROBLEM WITH LADDER-FOLDER\n";
}
}
if(layOn || twoDimOnlyLayDisk){
if(theSiPixelFolder.setModuleFolder(iBooker,(*struct_iter).first,2,isUpgrade)){
(*struct_iter).second->book( conf_,iSetup,iBooker,2,twoDimOn,hiRes, reducedSet, twoDimOnlyLayDisk, isUpgrade);
} else {
LogDebug ("PixelDQM") << "PROBLEM WITH LAYER-FOLDER\n";
}
}
if(phiOn){
if(theSiPixelFolder.setModuleFolder(iBooker,(*struct_iter).first,3,isUpgrade)){
(*struct_iter).second->book( conf_,iSetup,iBooker,3,twoDimOn,hiRes, reducedSet, isUpgrade);
} else {
LogDebug ("PixelDQM") << "PROBLEM WITH PHI-FOLDER\n";
}
}
if(bladeOn){
if(theSiPixelFolder.setModuleFolder(iBooker,(*struct_iter).first,4,isUpgrade)){
(*struct_iter).second->book( conf_,iSetup,iBooker,4,twoDimOn,hiRes, reducedSet, isUpgrade);
} else {
LogDebug ("PixelDQM") << "PROBLEM WITH BLADE-FOLDER\n";
}
}
if(diskOn || twoDimOnlyLayDisk){
if(theSiPixelFolder.setModuleFolder(iBooker,(*struct_iter).first,5,isUpgrade)){
(*struct_iter).second->book( conf_,iSetup,iBooker,5,twoDimOn,hiRes, reducedSet, twoDimOnlyLayDisk, isUpgrade);
} else {
LogDebug ("PixelDQM") << "PROBLEM WITH DISK-FOLDER\n";
}
}
if(ringOn){
if(theSiPixelFolder.setModuleFolder(iBooker,(*struct_iter).first,6,isUpgrade)){
(*struct_iter).second->book( conf_,iSetup,iBooker,6,twoDimOn,hiRes, reducedSet, isUpgrade);
} else {
LogDebug ("PixelDQM") << "PROBLEM WITH RING-FOLDER\n";
}
}
}
iBooker.cd(topFolderName_+"/Barrel");
meNDigisCOMBBarrel_ = iBooker.book1D("ALLMODS_ndigisCOMB_Barrel","Number of Digis",200,0.,400.);
meNDigisCOMBBarrel_->setAxisTitle("Number of digis per module per event",1);
meNDigisCHANBarrel_ = iBooker.book1D("ALLMODS_ndigisCHAN_Barrel","Number of Digis",100,0.,1000.);
meNDigisCHANBarrel_->setAxisTitle("Number of digis per FED channel per event",1);
std::stringstream ss1, ss2;
for (int i = 1; i <= noOfLayers; i++)
{
ss1.str(std::string()); ss1 << "ALLMODS_ndigisCHAN_BarrelL" << i;
ss2.str(std::string()); ss2 << "Number of Digis L" << i;
meNDigisCHANBarrelLs_.push_back(iBooker.book1D(ss1.str(),ss2.str(),100,0.,1000.));
meNDigisCHANBarrelLs_.at(i-1)->setAxisTitle("Number of digis per FED channel per event",1);
}
meNDigisCHANBarrelCh1_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh1","Number of Digis Ch1",100,0.,1000.);
meNDigisCHANBarrelCh1_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh2_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh2","Number of Digis Ch2",100,0.,1000.);
meNDigisCHANBarrelCh2_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh3_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh3","Number of Digis Ch3",100,0.,1000.);
meNDigisCHANBarrelCh3_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh4_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh4","Number of Digis Ch4",100,0.,1000.);
meNDigisCHANBarrelCh4_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh5_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh5","Number of Digis Ch5",100,0.,1000.);
meNDigisCHANBarrelCh5_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh6_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh6","Number of Digis Ch6",100,0.,1000.);
meNDigisCHANBarrelCh6_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh7_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh7","Number of Digis Ch7",100,0.,1000.);
meNDigisCHANBarrelCh7_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh8_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh8","Number of Digis Ch8",100,0.,1000.);
meNDigisCHANBarrelCh8_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh9_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh9","Number of Digis Ch9",100,0.,1000.);
meNDigisCHANBarrelCh9_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh10_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh10","Number of Digis Ch10",100,0.,1000.);
meNDigisCHANBarrelCh10_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh11_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh11","Number of Digis Ch11",100,0.,1000.);
meNDigisCHANBarrelCh11_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh12_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh12","Number of Digis Ch12",100,0.,1000.);
meNDigisCHANBarrelCh12_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh13_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh13","Number of Digis Ch13",100,0.,1000.);
meNDigisCHANBarrelCh13_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh14_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh14","Number of Digis Ch14",100,0.,1000.);
meNDigisCHANBarrelCh14_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh15_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh15","Number of Digis Ch15",100,0.,1000.);
meNDigisCHANBarrelCh15_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh16_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh16","Number of Digis Ch16",100,0.,1000.);
meNDigisCHANBarrelCh16_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh17_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh17","Number of Digis Ch17",100,0.,1000.);
meNDigisCHANBarrelCh17_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh18_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh18","Number of Digis Ch18",100,0.,1000.);
meNDigisCHANBarrelCh18_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh19_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh19","Number of Digis Ch19",100,0.,1000.);
meNDigisCHANBarrelCh19_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh20_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh20","Number of Digis Ch20",100,0.,1000.);
meNDigisCHANBarrelCh20_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh21_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh21","Number of Digis Ch21",100,0.,1000.);
meNDigisCHANBarrelCh21_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh22_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh22","Number of Digis Ch22",100,0.,1000.);
meNDigisCHANBarrelCh22_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh23_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh23","Number of Digis Ch23",100,0.,1000.);
meNDigisCHANBarrelCh23_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh24_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh24","Number of Digis Ch24",100,0.,1000.);
meNDigisCHANBarrelCh24_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh25_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh25","Number of Digis Ch25",100,0.,1000.);
meNDigisCHANBarrelCh25_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh26_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh26","Number of Digis Ch26",100,0.,1000.);
meNDigisCHANBarrelCh26_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh27_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh27","Number of Digis Ch27",100,0.,1000.);
meNDigisCHANBarrelCh27_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh28_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh28","Number of Digis Ch28",100,0.,1000.);
meNDigisCHANBarrelCh28_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh29_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh29","Number of Digis Ch29",100,0.,1000.);
meNDigisCHANBarrelCh29_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh30_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh30","Number of Digis Ch30",100,0.,1000.);
meNDigisCHANBarrelCh30_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh31_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh31","Number of Digis Ch31",100,0.,1000.);
meNDigisCHANBarrelCh31_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh32_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh32","Number of Digis Ch32",100,0.,1000.);
meNDigisCHANBarrelCh32_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh33_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh33","Number of Digis Ch33",100,0.,1000.);
meNDigisCHANBarrelCh33_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh34_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh34","Number of Digis Ch34",100,0.,1000.);
meNDigisCHANBarrelCh34_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh35_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh35","Number of Digis Ch35",100,0.,1000.);
meNDigisCHANBarrelCh35_->setAxisTitle("Number of digis per FED channel per event",1);
meNDigisCHANBarrelCh36_ = iBooker.book1D("ALLMODS_ndigisCHAN_BarrelCh36","Number of Digis Ch36",100,0.,1000.);
meNDigisCHANBarrelCh36_->setAxisTitle("Number of digis per FED channel per event",1);
iBooker.cd(topFolderName_+"/Endcap");
meNDigisCOMBEndcap_ = iBooker.book1D("ALLMODS_ndigisCOMB_Endcap","Number of Digis",200,0.,400.);
meNDigisCOMBEndcap_->setAxisTitle("Number of digis per module per event",1);
meNDigisCHANEndcap_ = iBooker.book1D("ALLMODS_ndigisCHAN_Endcap","Number of Digis",100,0.,1000.);
meNDigisCHANEndcap_->setAxisTitle("Number of digis per FED channel per event",1);
for (int i = 1; i <= noOfDisks; i++)
{
ss1.str(std::string()); ss1 << "ALLMODS_ndigisCHAN_EndcapDp" << i;
ss2.str(std::string()); ss2 << "Number of Digis Disk p" << i;
meNDigisCHANEndcapDps_.push_back(iBooker.book1D(ss1.str(),ss2.str(),100,0.,1000.));
meNDigisCHANEndcapDps_.at(i-1)->setAxisTitle("Number of digis per FED channel per event",1);
}
for (int i = 1; i <= noOfDisks; i++)
{
ss1.str(std::string()); ss1 << "ALLMODS_ndigisCHAN_EndcapDm" << i;
ss2.str(std::string()); ss2 << "Number of Digis Disk m" << i;
meNDigisCHANEndcapDms_.push_back(iBooker.book1D(ss1.str(),ss2.str(),100,0.,1000.));
meNDigisCHANEndcapDms_.at(i-1)->setAxisTitle("Number of digis per FED channel per event",1);
}
iBooker.cd(topFolderName_);
}
//define this as a plug-in
DEFINE_FWK_MODULE(SiPixelDigiSource);