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L1TGlobalProducer.cc
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L1TGlobalProducer.cc
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// L1TGlobalProducer.cc
//author: Brian Winer - Ohio State
// Vladimir Rekovic - extend for overlap removal
// Elisa Fontanesi - extended for three-body correlation conditions
#include "L1Trigger/L1TGlobal/plugins/L1TGlobalProducer.h"
// system include files
#include <memory>
#include <iostream>
#include <iomanip>
#include <algorithm>
#include "FWCore/Utilities/interface/typedefs.h"
#include "FWCore/ParameterSet/interface/ConfigurationDescriptions.h"
#include "FWCore/ParameterSet/interface/ParameterSetDescription.h"
#include "FWCore/Framework/interface/Event.h"
#include "FWCore/Framework/interface/EventSetup.h"
#include "FWCore/Framework/interface/ESHandle.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "FWCore/MessageLogger/interface/MessageDrop.h"
#include "FWCore/Utilities/interface/InputTag.h"
#include "DataFormats/Common/interface/RefProd.h"
#include "L1Trigger/L1TGlobal/interface/GlobalParamsHelper.h"
#include "DataFormats/L1TGlobal/interface/GlobalAlgBlk.h"
#include "DataFormats/L1TGlobal/interface/GlobalExtBlk.h"
#include "DataFormats/L1TGlobal/interface/GlobalObjectMapRecord.h"
#include "L1Trigger/L1TGlobal/interface/TriggerMenu.h"
#include "TriggerMenuParser.h"
using namespace l1t;
void L1TGlobalProducer::fillDescriptions(edm::ConfigurationDescriptions& descriptions) {
edm::ParameterSetDescription desc;
// These parameters are part of the L1T/HLT interface, avoid changing if possible::
desc.add<edm::InputTag>("MuonInputTag", edm::InputTag(""))
->setComment("InputTag for Global Muon Trigger (required parameter: default value is invalid)");
desc.add<edm::InputTag>("MuonShowerInputTag", edm::InputTag(""))
->setComment("InputTag for Global Muon Shower Trigger (required parameter: default value is invalid)");
desc.add<edm::InputTag>("EGammaInputTag", edm::InputTag(""))
->setComment("InputTag for Calo Trigger EGamma (required parameter: default value is invalid)");
desc.add<edm::InputTag>("TauInputTag", edm::InputTag(""))
->setComment("InputTag for Calo Trigger Tau (required parameter: default value is invalid)");
desc.add<edm::InputTag>("JetInputTag", edm::InputTag(""))
->setComment("InputTag for Calo Trigger Jet (required parameter: default value is invalid)");
desc.add<edm::InputTag>("EtSumInputTag", edm::InputTag(""))
->setComment("InputTag for Calo Trigger EtSum (required parameter: default value is invalid)");
desc.add<edm::InputTag>("ExtInputTag", edm::InputTag(""))
->setComment("InputTag for external conditions (not required, but recommend to specify explicitly in config)");
desc.add<edm::InputTag>("AlgoBlkInputTag", edm::InputTag("hltGtStage2Digis"))
->setComment(
"InputTag for unpacked Algblk (required only if GetPrescaleColumnFromData orRequireMenuToMatchAlgoBlkInput "
"set to true)");
desc.add<bool>("GetPrescaleColumnFromData", false)
->setComment("Get prescale column from unpacked GlobalAlgBck. Otherwise use value specified in PrescaleSet");
desc.add<bool>("AlgorithmTriggersUnprescaled", false)
->setComment("not required, but recommend to specify explicitly in config");
desc.add<bool>("RequireMenuToMatchAlgoBlkInput", true)
->setComment(
"This requires that the L1 menu record to match the menu used to produce the inputed L1 results, should be "
"true when used by the HLT to produce the object map");
desc.add<bool>("AlgorithmTriggersUnmasked", false)
->setComment("not required, but recommend to specify explicitly in config");
// switch for muon showers in Run-3
desc.add<bool>("useMuonShowers", false);
// disables resetting the prescale counters each lumisection (needed for offline)
// originally, the L1T firmware applied the reset of prescale counters at the end of every LS;
// this reset was disabled in the L1T firmware starting from run-362658 (November 25th, 2022), see
// https://github.com/cms-sw/cmssw/pull/37395#issuecomment-1323437044
desc.add<bool>("resetPSCountersEachLumiSec", false);
// initialise prescale counters with a semi-random value in the range [0, prescale*10^precision - 1];
// if false, the prescale counters are initialised to zero
desc.add<bool>("semiRandomInitialPSCounters", false);
// These parameters have well defined default values and are not currently
// part of the L1T/HLT interface. They can be cleaned up or updated at will:
desc.add<bool>("ProduceL1GtDaqRecord", true);
desc.add<bool>("ProduceL1GtObjectMapRecord", true);
desc.add<int>("EmulateBxInEvent", 1);
desc.add<int>("L1DataBxInEvent", 5);
desc.add<unsigned int>("AlternativeNrBxBoardDaq", 0);
desc.add<int>("BstLengthBytes", -1);
desc.add<unsigned int>("PrescaleSet", 1);
desc.addUntracked<int>("Verbosity", 0);
desc.addUntracked<bool>("PrintL1Menu", false);
desc.add<std::string>("TriggerMenuLuminosity", "startup");
descriptions.add("L1TGlobalProducer", desc);
}
// constructors
L1TGlobalProducer::L1TGlobalProducer(const edm::ParameterSet& parSet)
: m_muInputTag(parSet.getParameter<edm::InputTag>("MuonInputTag")),
m_muShowerInputTag(parSet.getParameter<edm::InputTag>("MuonShowerInputTag")),
m_egInputTag(parSet.getParameter<edm::InputTag>("EGammaInputTag")),
m_tauInputTag(parSet.getParameter<edm::InputTag>("TauInputTag")),
m_jetInputTag(parSet.getParameter<edm::InputTag>("JetInputTag")),
m_sumInputTag(parSet.getParameter<edm::InputTag>("EtSumInputTag")),
m_extInputTag(parSet.getParameter<edm::InputTag>("ExtInputTag")),
m_produceL1GtDaqRecord(parSet.getParameter<bool>("ProduceL1GtDaqRecord")),
m_produceL1GtObjectMapRecord(parSet.getParameter<bool>("ProduceL1GtObjectMapRecord")),
m_emulateBxInEvent(parSet.getParameter<int>("EmulateBxInEvent")),
m_L1DataBxInEvent(parSet.getParameter<int>("L1DataBxInEvent")),
m_alternativeNrBxBoardDaq(parSet.getParameter<unsigned int>("AlternativeNrBxBoardDaq")),
m_psBstLengthBytes(parSet.getParameter<int>("BstLengthBytes")),
m_prescaleSet(parSet.getParameter<unsigned int>("PrescaleSet")),
m_algorithmTriggersUnprescaled(parSet.getParameter<bool>("AlgorithmTriggersUnprescaled")),
m_algorithmTriggersUnmasked(parSet.getParameter<bool>("AlgorithmTriggersUnmasked")),
m_verbosity(parSet.getUntrackedParameter<int>("Verbosity")),
m_printL1Menu(parSet.getUntrackedParameter<bool>("PrintL1Menu")),
m_isDebugEnabled(edm::isDebugEnabled()),
m_getPrescaleColumnFromData(parSet.getParameter<bool>("GetPrescaleColumnFromData")),
m_requireMenuToMatchAlgoBlkInput(parSet.getParameter<bool>("RequireMenuToMatchAlgoBlkInput")),
m_algoblkInputTag(parSet.getParameter<edm::InputTag>("AlgoBlkInputTag")),
m_resetPSCountersEachLumiSec(parSet.getParameter<bool>("resetPSCountersEachLumiSec")),
m_semiRandomInitialPSCounters(parSet.getParameter<bool>("semiRandomInitialPSCounters")),
m_useMuonShowers(parSet.getParameter<bool>("useMuonShowers")) {
m_egInputToken = consumes<BXVector<EGamma>>(m_egInputTag);
m_tauInputToken = consumes<BXVector<Tau>>(m_tauInputTag);
m_jetInputToken = consumes<BXVector<Jet>>(m_jetInputTag);
m_sumInputToken = consumes<BXVector<EtSum>>(m_sumInputTag);
m_muInputToken = consumes<BXVector<Muon>>(m_muInputTag);
if (m_useMuonShowers)
m_muShowerInputToken = consumes<BXVector<MuonShower>>(m_muShowerInputTag);
m_extInputToken = consumes<BXVector<GlobalExtBlk>>(m_extInputTag);
m_l1GtStableParToken = esConsumes<L1TGlobalParameters, L1TGlobalParametersRcd>();
m_l1GtMenuToken = esConsumes<L1TUtmTriggerMenu, L1TUtmTriggerMenuRcd>();
if (!(m_algorithmTriggersUnprescaled && m_algorithmTriggersUnmasked)) {
m_l1GtPrescaleVetosToken = esConsumes<L1TGlobalPrescalesVetosFract, L1TGlobalPrescalesVetosFractRcd>();
}
if (m_getPrescaleColumnFromData || m_requireMenuToMatchAlgoBlkInput) {
m_algoblkInputToken = consumes<BXVector<GlobalAlgBlk>>(m_algoblkInputTag);
}
if (m_verbosity) {
LogTrace("L1TGlobalProducer") << "\nInput tag for muon collection from uGMT: " << m_muInputTag
<< "\nInput tag for calorimeter jet collections from Cal: " << m_jetInputTag
<< "\nInput tag for external conditions : " << m_extInputTag << std::endl;
LogTrace("L1TGlobalProducer") << "\nProduce the L1 uGT DAQ readout record: " << m_produceL1GtDaqRecord
<< "\nProduce the L1 uGT Object Map record: "
<< m_produceL1GtObjectMapRecord << " \n"
<< "\nNumber of BxInEvent to be emulated: " << m_emulateBxInEvent << " \n"
<< "\nAlternative for number of BX in GT DAQ record: 0x" << std::hex
<< m_alternativeNrBxBoardDaq << " \n"
<< "\nRun algorithm triggers unprescaled: "
<< m_algorithmTriggersUnprescaled
<< "\nRun algorithm triggers unmasked (all enabled): " << m_algorithmTriggersUnmasked
<< "\n"
<< std::endl;
}
if ((m_emulateBxInEvent > 0) && ((m_emulateBxInEvent % 2) == 0)) {
m_emulateBxInEvent = m_emulateBxInEvent - 1;
if (m_verbosity) {
edm::LogWarning("L1TGlobalProducer")
<< "\nWARNING: Number of bunch crossing to be emulated rounded to: " << m_emulateBxInEvent
<< "\n The number must be an odd number!\n"
<< std::endl;
}
}
if ((m_L1DataBxInEvent > 0) && ((m_L1DataBxInEvent % 2) == 0)) {
m_L1DataBxInEvent = m_L1DataBxInEvent - 1;
if (m_verbosity) {
edm::LogWarning("L1TGlobalProducer")
<< "\nWARNING: Number of bunch crossing for incoming L1 Data rounded to: " << m_L1DataBxInEvent
<< "\n The number must be an odd number!\n"
<< std::endl;
}
} else if (m_L1DataBxInEvent < 0) {
m_L1DataBxInEvent = 1;
if (m_verbosity) {
edm::LogWarning("L1TGlobalProducer")
<< "\nWARNING: Number of bunch crossing for incoming L1 Data was changed to: " << m_L1DataBxInEvent
<< "\n The number must be an odd positive number!\n"
<< std::endl;
}
}
// register products
if (m_produceL1GtDaqRecord) {
produces<GlobalAlgBlkBxCollection>();
//blwEXT produces<GlobalExtBlkBxCollection>();
}
if (m_produceL1GtObjectMapRecord) {
produces<GlobalObjectMapRecord>();
}
// create new uGt Board
m_uGtBrd = std::make_unique<GlobalBoard>();
m_uGtBrd->setVerbosity(m_verbosity);
m_uGtBrd->setResetPSCountersEachLumiSec(m_resetPSCountersEachLumiSec);
m_uGtBrd->setSemiRandomInitialPSCounters(m_semiRandomInitialPSCounters);
// initialize cached IDs
//
m_l1GtParCacheID = 0ULL;
m_l1GtMenuCacheID = 0ULL;
m_numberPhysTriggers = 0;
m_numberDaqPartitions = 0;
m_nrL1Mu = 0;
m_nrL1MuShower = 0;
m_nrL1EG = 0;
m_nrL1Tau = 0;
m_nrL1Jet = 0;
m_ifMuEtaNumberBits = 0;
m_ifCaloEtaNumberBits = 0;
//
m_l1GtParCacheID = 0ULL;
m_totalBxInEvent = 0;
m_activeBoardsGtDaq = 0;
m_bstLengthBytes = 0;
//
m_l1GtBMCacheID = 0ULL;
//
m_l1GtPfAlgoCacheID = 0ULL;
m_l1GtTmAlgoCacheID = 0ULL;
m_l1GtTmVetoAlgoCacheID = 0ULL;
m_currentLumi = 0;
// Set default, initial, dummy prescale factor table
std::vector<std::vector<double>> temp_prescaleTable;
temp_prescaleTable.push_back(std::vector<double>());
m_initialPrescaleFactorsAlgoTrig = temp_prescaleTable;
}
// destructor
L1TGlobalProducer::~L1TGlobalProducer() {}
// member functions
// method called to produce the data
void L1TGlobalProducer::produce(edm::Event& iEvent, const edm::EventSetup& evSetup) {
// process event iEvent
// get / update the stable parameters from the EventSetup
// local cache & check on cacheIdentifier
unsigned long long l1GtParCacheID = evSetup.get<L1TGlobalParametersRcd>().cacheIdentifier();
if (m_l1GtParCacheID != l1GtParCacheID) {
edm::ESHandle<L1TGlobalParameters> l1GtStablePar = evSetup.getHandle(m_l1GtStableParToken);
m_l1GtStablePar = l1GtStablePar.product();
const GlobalParamsHelper* data = GlobalParamsHelper::readFromEventSetup(m_l1GtStablePar);
// number of bx
m_totalBxInEvent = data->totalBxInEvent();
// number of physics triggers
m_numberPhysTriggers = data->numberPhysTriggers();
// number of objects of each type
m_nrL1Mu = data->numberL1Mu();
// There should be at most 1 muon shower object per BX
// This object contains information for the in-time
// showers and out-of-time showers
if (m_useMuonShowers)
m_nrL1MuShower = 1;
// EG
m_nrL1EG = data->numberL1EG();
// jets
m_nrL1Jet = data->numberL1Jet();
// taus
m_nrL1Tau = data->numberL1Tau();
if (m_L1DataBxInEvent < 1)
m_L1DataBxInEvent = 1;
int minL1DataBxInEvent = (m_L1DataBxInEvent + 1) / 2 - m_L1DataBxInEvent;
int maxL1DataBxInEvent = (m_L1DataBxInEvent + 1) / 2 - 1;
// Initialize Board
m_uGtBrd->init(m_numberPhysTriggers,
m_nrL1Mu,
m_nrL1MuShower,
m_nrL1EG,
m_nrL1Tau,
m_nrL1Jet,
minL1DataBxInEvent,
maxL1DataBxInEvent);
//
m_l1GtParCacheID = l1GtParCacheID;
}
if (m_emulateBxInEvent < 0) {
m_emulateBxInEvent = m_totalBxInEvent;
}
if (m_emulateBxInEvent < 1)
m_emulateBxInEvent = 1;
int minEmulBxInEvent = (m_emulateBxInEvent + 1) / 2 - m_emulateBxInEvent;
int maxEmulBxInEvent = (m_emulateBxInEvent + 1) / 2 - 1;
// get / update the trigger menu from the EventSetup
// local cache & check on cacheIdentifier
unsigned long long l1GtMenuCacheID = evSetup.get<L1TUtmTriggerMenuRcd>().cacheIdentifier();
if (m_l1GtMenuCacheID != l1GtMenuCacheID) {
const GlobalParamsHelper* data = GlobalParamsHelper::readFromEventSetup(m_l1GtStablePar);
edm::ESHandle<L1TUtmTriggerMenu> l1GtMenu = evSetup.getHandle(m_l1GtMenuToken);
const L1TUtmTriggerMenu* utml1GtMenu = l1GtMenu.product();
if (m_requireMenuToMatchAlgoBlkInput) {
edm::Handle<BXVector<GlobalAlgBlk>> m_uGtAlgBlk;
iEvent.getByToken(m_algoblkInputToken, m_uGtAlgBlk);
if (m_uGtAlgBlk->size() >= 1) {
if ((*m_uGtAlgBlk)[0].getL1FirmwareUUID() != static_cast<int>(utml1GtMenu->getFirmwareUuidHashed())) {
throw cms::Exception("ConditionsError")
<< " Error L1 menu loaded in via conditions does not match the L1 actually run "
<< (*m_uGtAlgBlk)[0].getL1FirmwareUUID() << " vs " << utml1GtMenu->getFirmwareUuidHashed()
<< ". This means that the mapping of the names to the bits may be incorrect. Please check the "
"L1TUtmTriggerMenuRcd record supplied. Unless you know what you are doing, do not simply disable this "
"check via the config as this a major error and the indication of something very wrong";
}
}
}
// Instantiate Parser
TriggerMenuParser gtParser = TriggerMenuParser();
gtParser.setGtNumberConditionChips(data->numberChips());
gtParser.setGtPinsOnConditionChip(data->pinsOnChip());
gtParser.setGtOrderConditionChip(data->orderOfChip());
gtParser.setGtNumberPhysTriggers(data->numberPhysTriggers());
//Parse menu into emulator classes
gtParser.parseCondFormats(utml1GtMenu);
// transfer the condition map and algorithm map from parser to L1uGtTriggerMenu
m_l1GtMenu = std::make_unique<TriggerMenu>(gtParser.gtTriggerMenuName(),
data->numberChips(),
gtParser.vecMuonTemplate(),
gtParser.vecMuonShowerTemplate(),
gtParser.vecCaloTemplate(),
gtParser.vecEnergySumTemplate(),
gtParser.vecExternalTemplate(),
gtParser.vecCorrelationTemplate(),
gtParser.vecCorrelationThreeBodyTemplate(),
gtParser.vecCorrelationWithOverlapRemovalTemplate(),
gtParser.corMuonTemplate(),
gtParser.corCaloTemplate(),
gtParser.corEnergySumTemplate());
m_l1GtMenu->setGtTriggerMenuInterface(gtParser.gtTriggerMenuInterface());
m_l1GtMenu->setGtTriggerMenuImplementation(gtParser.gtTriggerMenuImplementation());
m_l1GtMenu->setGtScaleDbKey(gtParser.gtScaleDbKey());
m_l1GtMenu->setGtScales(gtParser.gtScales());
m_l1GtMenu->setGtTriggerMenuUUID(gtParser.gtTriggerMenuUUID());
m_l1GtMenu->setGtAlgorithmMap(gtParser.gtAlgorithmMap());
m_l1GtMenu->setGtAlgorithmAliasMap(gtParser.gtAlgorithmAliasMap());
m_l1GtMenu->buildGtConditionMap();
int printV = 2;
if (m_printL1Menu)
m_l1GtMenu->print(std::cout, printV);
m_l1GtMenuCacheID = l1GtMenuCacheID;
}
// get / update the board maps from the EventSetup
// local cache & check on cacheIdentifier
/* *** Drop L1GtBoard Maps for now
typedef std::vector<L1GtBoard>::const_iterator CItBoardMaps;
unsigned long long l1GtBMCacheID = evSetup.get<L1GtBoardMapsRcd>().cacheIdentifier();
*/
/* ** Drop board mapping for now
if (m_l1GtBMCacheID != l1GtBMCacheID) {
edm::ESHandle< L1GtBoardMaps > l1GtBM;
evSetup.get< L1GtBoardMapsRcd >().get( l1GtBM );
m_l1GtBM = l1GtBM.product();
m_l1GtBMCacheID = l1GtBMCacheID;
}
// TODO need changes in CondFormats to cache the maps
const std::vector<L1GtBoard>& boardMaps = m_l1GtBM->gtBoardMaps();
*/
// get / update the prescale factors from the EventSetup
// local cache & check on cacheIdentifier
// Only get event record if not unprescaled and not unmasked
if (!(m_algorithmTriggersUnprescaled && m_algorithmTriggersUnmasked)) {
unsigned long long l1GtPfAlgoCacheID = evSetup.get<L1TGlobalPrescalesVetosFractRcd>().cacheIdentifier();
if (m_l1GtPfAlgoCacheID != l1GtPfAlgoCacheID) {
edm::ESHandle<L1TGlobalPrescalesVetosFract> l1GtPrescalesFractVetoes =
evSetup.getHandle(m_l1GtPrescaleVetosToken);
const L1TGlobalPrescalesVetosFract* es = l1GtPrescalesFractVetoes.product();
m_l1GtPrescalesVetosFract = PrescalesVetosFractHelper::readFromEventSetup(es);
m_prescaleFactorsAlgoTrig = &(m_l1GtPrescalesVetosFract->prescaleTable());
m_triggerMaskVetoAlgoTrig = &(m_l1GtPrescalesVetosFract->triggerMaskVeto());
m_l1GtPfAlgoCacheID = l1GtPfAlgoCacheID;
}
if (m_getPrescaleColumnFromData &&
(m_currentLumi != iEvent.luminosityBlock())) { // get prescale column from unpacked data
m_currentLumi = iEvent.luminosityBlock();
edm::Handle<BXVector<GlobalAlgBlk>> m_uGtAlgBlk;
iEvent.getByToken(m_algoblkInputToken, m_uGtAlgBlk);
if (m_uGtAlgBlk.isValid() && !m_uGtAlgBlk->isEmpty(0)) {
std::vector<GlobalAlgBlk>::const_iterator algBlk = m_uGtAlgBlk->begin(0);
m_prescaleSet = static_cast<unsigned int>(algBlk->getPreScColumn());
} else {
m_prescaleSet = 1;
edm::LogError("L1TGlobalProduce")
<< "Could not find valid algo block. Setting prescale column to 1" << std::endl;
}
}
} else {
// Set Prescale factors to initial dummy values
m_prescaleSet = 0;
m_prescaleFactorsAlgoTrig = &m_initialPrescaleFactorsAlgoTrig;
m_triggerMaskAlgoTrig = &m_initialTriggerMaskAlgoTrig;
m_triggerMaskVetoAlgoTrig = &m_initialTriggerMaskVetoAlgoTrig;
}
// get / update the trigger mask from the EventSetup
// local cache & check on cacheIdentifier
/* **** For now Leave out Masks *****
unsigned long long l1GtTmAlgoCacheID =
evSetup.get<L1GtTriggerMaskAlgoTrigRcd>().cacheIdentifier();
if (m_l1GtTmAlgoCacheID != l1GtTmAlgoCacheID) {
edm::ESHandle< L1GtTriggerMask > l1GtTmAlgo;
evSetup.get< L1GtTriggerMaskAlgoTrigRcd >().get( l1GtTmAlgo );
m_l1GtTmAlgo = l1GtTmAlgo.product();
m_triggerMaskAlgoTrig = m_l1GtTmAlgo->gtTriggerMask();
m_l1GtTmAlgoCacheID = l1GtTmAlgoCacheID;
}
*/
/* **** For now Leave out Veto Masks *****
unsigned long long l1GtTmVetoAlgoCacheID =
evSetup.get<L1GtTriggerMaskVetoAlgoTrigRcd>().cacheIdentifier();
if (m_l1GtTmVetoAlgoCacheID != l1GtTmVetoAlgoCacheID) {
edm::ESHandle< L1GtTriggerMask > l1GtTmVetoAlgo;
evSetup.get< L1GtTriggerMaskVetoAlgoTrigRcd >().get( l1GtTmVetoAlgo );
m_l1GtTmVetoAlgo = l1GtTmVetoAlgo.product();
m_triggerMaskVetoAlgoTrig = m_l1GtTmVetoAlgo->gtTriggerMask();
m_l1GtTmVetoAlgoCacheID = l1GtTmVetoAlgoCacheID;
}
*/
// ****** Board Maps Need to be redone....hard code for now ******
// loop over blocks in the GT DAQ record receiving data, count them if they are active
// all board type are defined in CondFormats/L1TObjects/L1GtFwd
// &
// set the active flag for each object type received from GMT and GCT
// all objects in the GT system
//
bool receiveMu = true;
bool receiveMuShower = true;
bool receiveEG = true;
bool receiveTau = true;
bool receiveJet = true;
bool receiveEtSums = true;
bool receiveExt = true;
/* *** Boards need redefining *****
for (CItBoardMaps
itBoard = boardMaps.begin();
itBoard != boardMaps.end(); ++itBoard) {
int iPosition = itBoard->gtPositionDaqRecord();
if (iPosition > 0) {
int iActiveBit = itBoard->gtBitDaqActiveBoards();
bool activeBoard = false;
if (iActiveBit >= 0) {
activeBoard = m_activeBoardsGtDaq & (1 << iActiveBit);
}
// use board if: in the record, but not in ActiveBoardsMap (iActiveBit < 0)
// in the record and ActiveBoardsMap, and active
if ((iActiveBit < 0) || activeBoard) {
// ****** Decide what board manipulation (if any we want here)
}
}
}
*/
// Produce the Output Records for the GT
std::unique_ptr<GlobalAlgBlkBxCollection> uGtAlgRecord(
new GlobalAlgBlkBxCollection(0, minEmulBxInEvent, maxEmulBxInEvent));
// * produce the GlobalObjectMapRecord
std::unique_ptr<GlobalObjectMapRecord> gtObjectMapRecord(new GlobalObjectMapRecord());
// fill the boards not depending on the BxInEvent in the L1 GT DAQ record
// GMT, PSB and FDL depend on BxInEvent
// fill in emulator the same bunch crossing (12 bits - hardwired number of bits...)
// and the same local bunch crossing for all boards
int bxCross = iEvent.bunchCrossing();
uint16_t bxCrossHw = 0;
if ((bxCross & 0xFFF) == bxCross) {
bxCrossHw = static_cast<uint16_t>(bxCross);
} else {
bxCrossHw = 0; // Bx number too large, set to 0!
if (m_verbosity) {
LogDebug("L1TGlobalProducer") << "\nBunch cross number [hex] = " << std::hex << bxCross
<< "\n larger than 12 bits. Set to 0! \n"
<< std::dec << std::endl;
}
}
LogDebug("L1TGlobalProducer") << "HW BxCross " << bxCrossHw << std::endl;
// get the prescale factor from the configuration for now
// prescale set index counts from zero
unsigned int pfAlgoSetIndex = m_prescaleSet;
auto max = (*m_prescaleFactorsAlgoTrig).size() - 1;
if (pfAlgoSetIndex > max) {
edm::LogWarning("L1TGlobalProducer") << "\nAttempting to access prescale algo set: " << m_prescaleSet
<< "\nNumber of prescale algo sets available: 0.." << max
<< "Setting former to latter." << std::endl;
pfAlgoSetIndex = max;
}
const std::vector<double>& prescaleFactorsAlgoTrig = (*m_prescaleFactorsAlgoTrig).at(pfAlgoSetIndex);
// For now, set masks according to prescale value of 0
m_initialTriggerMaskAlgoTrig.clear();
for (unsigned int iAlgo = 0; iAlgo < prescaleFactorsAlgoTrig.size(); iAlgo++) {
unsigned int value = prescaleFactorsAlgoTrig[iAlgo];
value = (value == 0) ? 0 : 1;
m_initialTriggerMaskAlgoTrig.push_back(value);
}
m_triggerMaskAlgoTrig = &m_initialTriggerMaskAlgoTrig;
const std::vector<unsigned int>& triggerMaskAlgoTrig = *m_triggerMaskAlgoTrig;
const std::vector<int>& triggerMaskVetoAlgoTrig = *m_triggerMaskVetoAlgoTrig;
LogDebug("L1TGlobalProducer") << "Size of prescale vector" << prescaleFactorsAlgoTrig.size() << std::endl;
// Load the calorimeter input onto the uGt Board
m_uGtBrd->receiveCaloObjectData(iEvent,
m_egInputToken,
m_tauInputToken,
m_jetInputToken,
m_sumInputToken,
receiveEG,
m_nrL1EG,
receiveTau,
m_nrL1Tau,
receiveJet,
m_nrL1Jet,
receiveEtSums);
m_uGtBrd->receiveMuonObjectData(iEvent, m_muInputToken, receiveMu, m_nrL1Mu);
if (m_useMuonShowers)
m_uGtBrd->receiveMuonShowerObjectData(iEvent, m_muShowerInputToken, receiveMuShower, m_nrL1MuShower);
m_uGtBrd->receiveExternalData(iEvent, m_extInputToken, receiveExt);
// loop over BxInEvent
for (int iBxInEvent = minEmulBxInEvent; iBxInEvent <= maxEmulBxInEvent; ++iBxInEvent) {
// run GTL
LogDebug("L1TGlobalProducer") << "\nL1TGlobalProducer : running GTL for bx = " << iBxInEvent << "\n" << std::endl;
// Run the GTL for this BX
m_uGtBrd->runGTL(iEvent,
evSetup,
m_l1GtMenu.get(),
m_produceL1GtObjectMapRecord,
iBxInEvent,
gtObjectMapRecord,
m_numberPhysTriggers,
m_nrL1Mu,
m_nrL1MuShower,
m_nrL1EG,
m_nrL1Tau,
m_nrL1Jet);
// run FDL
LogDebug("L1TGlobalProducer") << "\nL1TGlobalProducer : running FDL for bx = " << iBxInEvent << "\n" << std::endl;
// Run the Final Decision Logic for this BX
m_uGtBrd->runFDL(iEvent,
iBxInEvent,
m_totalBxInEvent,
m_numberPhysTriggers,
prescaleFactorsAlgoTrig,
triggerMaskAlgoTrig,
triggerMaskVetoAlgoTrig,
m_algorithmTriggersUnprescaled,
m_algorithmTriggersUnmasked);
// Fill in the DAQ Records
if (m_produceL1GtDaqRecord) {
m_uGtBrd->fillAlgRecord(iBxInEvent,
uGtAlgRecord,
m_prescaleSet,
m_l1GtMenu->gtTriggerMenuUUID(),
m_l1GtMenu->gtTriggerMenuImplementation());
}
} //End Loop over Bx
// Add explicit reset of Board
m_uGtBrd->reset();
if (m_verbosity && m_isDebugEnabled) {
std::ostringstream myCoutStream;
for (int bx = minEmulBxInEvent; bx < maxEmulBxInEvent; bx++) {
/// Needs error checking that something exists at this bx.
(uGtAlgRecord->at(bx, 0)).print(myCoutStream);
}
LogTrace("L1TGlobalProducer") << "\n The following L1 GT DAQ readout record was produced:\n"
<< myCoutStream.str() << "\n"
<< std::endl;
myCoutStream.str("");
myCoutStream.clear();
const std::vector<GlobalObjectMap> objMapVec = gtObjectMapRecord->gtObjectMap();
for (std::vector<GlobalObjectMap>::const_iterator it = objMapVec.begin(); it != objMapVec.end(); ++it) {
(*it).print(myCoutStream);
}
LogDebug("L1TGlobalProducer") << "Test gtObjectMapRecord in L1TGlobalProducer \n\n"
<< myCoutStream.str() << "\n\n"
<< std::endl;
myCoutStream.str("");
myCoutStream.clear();
}
// register products
if (m_produceL1GtDaqRecord) {
iEvent.put(std::move(uGtAlgRecord));
}
if (m_produceL1GtObjectMapRecord) {
iEvent.put(std::move(gtObjectMapRecord));
}
}
//define this as a plug-in
#include "FWCore/PluginManager/interface/ModuleDef.h"
#include "FWCore/Framework/interface/MakerMacros.h"
#include <cstdint>
DEFINE_FWK_MODULE(L1TGlobalProducer);