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EcalUncalibRecHitProducerGPU.cc
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EcalUncalibRecHitProducerGPU.cc
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#include "CUDADataFormats/EcalRecHitSoA/interface/EcalUncalibratedRecHit.h"
#include "CondFormats/DataRecord/interface/EcalGainRatiosRcd.h"
#include "CondFormats/DataRecord/interface/EcalPedestalsRcd.h"
#include "CondFormats/DataRecord/interface/EcalPulseCovariancesRcd.h"
#include "CondFormats/DataRecord/interface/EcalPulseShapesRcd.h"
#include "CondFormats/DataRecord/interface/EcalSampleMaskRcd.h"
#include "CondFormats/DataRecord/interface/EcalSamplesCorrelationRcd.h"
#include "CondFormats/DataRecord/interface/EcalTimeBiasCorrectionsRcd.h"
#include "CondFormats/DataRecord/interface/EcalTimeCalibConstantsRcd.h"
#include "CondFormats/DataRecord/interface/EcalTimeOffsetConstantRcd.h"
#include "CondFormats/EcalObjects/interface/EcalGainRatiosGPU.h"
#include "CondFormats/EcalObjects/interface/EcalMultifitParametersGPU.h"
#include "CondFormats/EcalObjects/interface/EcalPedestalsGPU.h"
#include "CondFormats/EcalObjects/interface/EcalPulseCovariancesGPU.h"
#include "CondFormats/EcalObjects/interface/EcalPulseShapesGPU.h"
#include "CondFormats/EcalObjects/interface/EcalSamplesCorrelationGPU.h"
#include "CondFormats/EcalObjects/interface/EcalTimeBiasCorrectionsGPU.h"
#include "CondFormats/EcalObjects/interface/EcalTimeCalibConstantsGPU.h"
#include "CondFormats/EcalObjects/interface/EcalTimeOffsetConstant.h"
#include "DataFormats/EcalDigi/interface/EcalDigiCollections.h"
#include "FWCore/Framework/interface/Event.h"
#include "FWCore/Framework/interface/EventSetup.h"
#include "FWCore/Framework/interface/MakerMacros.h"
#include "FWCore/Framework/interface/stream/EDProducer.h"
#include "FWCore/ParameterSet/interface/ParameterSet.h"
#include "HeterogeneousCore/CUDACore/interface/JobConfigurationGPURecord.h"
#include "HeterogeneousCore/CUDACore/interface/ScopedContext.h"
#include "HeterogeneousCore/CUDAUtilities/interface/cudaCheck.h"
#include "DeclsForKernels.h"
#include "EcalUncalibRecHitMultiFitAlgoGPU.h"
class EcalUncalibRecHitProducerGPU : public edm::stream::EDProducer<edm::ExternalWork> {
public:
explicit EcalUncalibRecHitProducerGPU(edm::ParameterSet const& ps);
~EcalUncalibRecHitProducerGPU() override;
static void fillDescriptions(edm::ConfigurationDescriptions&);
private:
void acquire(edm::Event const&, edm::EventSetup const&, edm::WaitingTaskWithArenaHolder) override;
void produce(edm::Event&, edm::EventSetup const&) override;
private:
using InputProduct = cms::cuda::Product<ecal::DigisCollection<calo::common::DevStoragePolicy>>;
const edm::EDGetTokenT<InputProduct> digisTokenEB_, digisTokenEE_;
using OutputProduct = cms::cuda::Product<ecal::UncalibratedRecHit<calo::common::DevStoragePolicy>>;
const edm::EDPutTokenT<OutputProduct> recHitsTokenEB_, recHitsTokenEE_;
// conditions tokens
const edm::ESGetToken<EcalPedestalsGPU, EcalPedestalsRcd> pedestalsToken_;
const edm::ESGetToken<EcalGainRatiosGPU, EcalGainRatiosRcd> gainRatiosToken_;
const edm::ESGetToken<EcalPulseShapesGPU, EcalPulseShapesRcd> pulseShapesToken_;
const edm::ESGetToken<EcalPulseCovariancesGPU, EcalPulseCovariancesRcd> pulseCovariancesToken_;
const edm::ESGetToken<EcalSamplesCorrelationGPU, EcalSamplesCorrelationRcd> samplesCorrelationToken_;
const edm::ESGetToken<EcalTimeBiasCorrectionsGPU, EcalTimeBiasCorrectionsRcd> timeBiasCorrectionsToken_;
const edm::ESGetToken<EcalTimeCalibConstantsGPU, EcalTimeCalibConstantsRcd> timeCalibConstantsToken_;
const edm::ESGetToken<EcalSampleMask, EcalSampleMaskRcd> sampleMaskToken_;
const edm::ESGetToken<EcalTimeOffsetConstant, EcalTimeOffsetConstantRcd> timeOffsetConstantToken_;
const edm::ESGetToken<EcalMultifitParametersGPU, JobConfigurationGPURecord> multifitParametersToken_;
// configuration parameters
ecal::multifit::ConfigurationParameters configParameters_;
// event data
ecal::multifit::EventOutputDataGPU eventOutputDataGPU_;
cms::cuda::ContextState cudaState_;
uint32_t neb_, nee_;
};
void EcalUncalibRecHitProducerGPU::fillDescriptions(edm::ConfigurationDescriptions& confDesc) {
edm::ParameterSetDescription desc;
desc.add<edm::InputTag>("digisLabelEB", edm::InputTag("ecalRawToDigiGPU", "ebDigis"));
desc.add<edm::InputTag>("digisLabelEE", edm::InputTag("ecalRawToDigiGPU", "eeDigis"));
desc.add<std::string>("recHitsLabelEB", "EcalUncalibRecHitsEB");
desc.add<std::string>("recHitsLabelEE", "EcalUncalibRecHitsEE");
desc.add<double>("EBtimeFitLimits_Lower", 0.2);
desc.add<double>("EBtimeFitLimits_Upper", 1.4);
desc.add<double>("EEtimeFitLimits_Lower", 0.2);
desc.add<double>("EEtimeFitLimits_Upper", 1.4);
desc.add<double>("EBtimeConstantTerm", .6);
desc.add<double>("EEtimeConstantTerm", 1.0);
desc.add<double>("EBtimeNconst", 28.5);
desc.add<double>("EEtimeNconst", 31.8);
desc.add<double>("outOfTimeThresholdGain12pEB", 5);
desc.add<double>("outOfTimeThresholdGain12mEB", 5);
desc.add<double>("outOfTimeThresholdGain61pEB", 5);
desc.add<double>("outOfTimeThresholdGain61mEB", 5);
desc.add<double>("outOfTimeThresholdGain12pEE", 1000);
desc.add<double>("outOfTimeThresholdGain12mEE", 1000);
desc.add<double>("outOfTimeThresholdGain61pEE", 1000);
desc.add<double>("outOfTimeThresholdGain61mEE", 1000);
desc.add<double>("amplitudeThresholdEB", 10);
desc.add<double>("amplitudeThresholdEE", 10);
desc.add<uint32_t>("maxNumberHitsEB", 61200);
desc.add<uint32_t>("maxNumberHitsEE", 14648);
desc.addUntracked<std::vector<uint32_t>>("kernelMinimizeThreads", {32, 1, 1});
desc.add<bool>("shouldRunTimingComputation", true);
confDesc.addWithDefaultLabel(desc);
}
EcalUncalibRecHitProducerGPU::EcalUncalibRecHitProducerGPU(const edm::ParameterSet& ps)
: digisTokenEB_{consumes<InputProduct>(ps.getParameter<edm::InputTag>("digisLabelEB"))},
digisTokenEE_{consumes<InputProduct>(ps.getParameter<edm::InputTag>("digisLabelEE"))},
recHitsTokenEB_{produces<OutputProduct>(ps.getParameter<std::string>("recHitsLabelEB"))},
recHitsTokenEE_{produces<OutputProduct>(ps.getParameter<std::string>("recHitsLabelEE"))},
pedestalsToken_{esConsumes<EcalPedestalsGPU, EcalPedestalsRcd>()},
gainRatiosToken_{esConsumes<EcalGainRatiosGPU, EcalGainRatiosRcd>()},
pulseShapesToken_{esConsumes<EcalPulseShapesGPU, EcalPulseShapesRcd>()},
pulseCovariancesToken_{esConsumes<EcalPulseCovariancesGPU, EcalPulseCovariancesRcd>()},
samplesCorrelationToken_{esConsumes<EcalSamplesCorrelationGPU, EcalSamplesCorrelationRcd>()},
timeBiasCorrectionsToken_{esConsumes<EcalTimeBiasCorrectionsGPU, EcalTimeBiasCorrectionsRcd>()},
timeCalibConstantsToken_{esConsumes<EcalTimeCalibConstantsGPU, EcalTimeCalibConstantsRcd>()},
sampleMaskToken_{esConsumes<EcalSampleMask, EcalSampleMaskRcd>()},
timeOffsetConstantToken_{esConsumes<EcalTimeOffsetConstant, EcalTimeOffsetConstantRcd>()},
multifitParametersToken_{esConsumes<EcalMultifitParametersGPU, JobConfigurationGPURecord>()} {
std::pair<double, double> EBtimeFitLimits, EEtimeFitLimits;
EBtimeFitLimits.first = ps.getParameter<double>("EBtimeFitLimits_Lower");
EBtimeFitLimits.second = ps.getParameter<double>("EBtimeFitLimits_Upper");
EEtimeFitLimits.first = ps.getParameter<double>("EEtimeFitLimits_Lower");
EEtimeFitLimits.second = ps.getParameter<double>("EEtimeFitLimits_Upper");
auto EBtimeConstantTerm = ps.getParameter<double>("EBtimeConstantTerm");
auto EEtimeConstantTerm = ps.getParameter<double>("EEtimeConstantTerm");
auto EBtimeNconst = ps.getParameter<double>("EBtimeNconst");
auto EEtimeNconst = ps.getParameter<double>("EEtimeNconst");
auto outOfTimeThreshG12pEB = ps.getParameter<double>("outOfTimeThresholdGain12pEB");
auto outOfTimeThreshG12mEB = ps.getParameter<double>("outOfTimeThresholdGain12mEB");
auto outOfTimeThreshG61pEB = ps.getParameter<double>("outOfTimeThresholdGain61pEB");
auto outOfTimeThreshG61mEB = ps.getParameter<double>("outOfTimeThresholdGain61mEB");
auto outOfTimeThreshG12pEE = ps.getParameter<double>("outOfTimeThresholdGain12pEE");
auto outOfTimeThreshG12mEE = ps.getParameter<double>("outOfTimeThresholdGain12mEE");
auto outOfTimeThreshG61pEE = ps.getParameter<double>("outOfTimeThresholdGain61pEE");
auto outOfTimeThreshG61mEE = ps.getParameter<double>("outOfTimeThresholdGain61mEE");
auto amplitudeThreshEB = ps.getParameter<double>("amplitudeThresholdEB");
auto amplitudeThreshEE = ps.getParameter<double>("amplitudeThresholdEE");
// max number of digis to allocate for
configParameters_.maxNumberHitsEB = ps.getParameter<uint32_t>("maxNumberHitsEB");
configParameters_.maxNumberHitsEE = ps.getParameter<uint32_t>("maxNumberHitsEE");
// switch to run timing computation kernels
configParameters_.shouldRunTimingComputation = ps.getParameter<bool>("shouldRunTimingComputation");
// minimize kernel launch conf
auto threadsMinimize = ps.getUntrackedParameter<std::vector<uint32_t>>("kernelMinimizeThreads");
configParameters_.kernelMinimizeThreads[0] = threadsMinimize[0];
configParameters_.kernelMinimizeThreads[1] = threadsMinimize[1];
configParameters_.kernelMinimizeThreads[2] = threadsMinimize[2];
//
// configuration and physics parameters: done once
// assume there is a single device
// use sync copying
//
// time fit parameters and limits
configParameters_.timeFitLimitsFirstEB = EBtimeFitLimits.first;
configParameters_.timeFitLimitsSecondEB = EBtimeFitLimits.second;
configParameters_.timeFitLimitsFirstEE = EEtimeFitLimits.first;
configParameters_.timeFitLimitsSecondEE = EEtimeFitLimits.second;
// time constant terms
configParameters_.timeConstantTermEB = EBtimeConstantTerm;
configParameters_.timeConstantTermEE = EEtimeConstantTerm;
// time N const
configParameters_.timeNconstEB = EBtimeNconst;
configParameters_.timeNconstEE = EEtimeNconst;
// amplitude threshold for time flags
configParameters_.amplitudeThreshEB = amplitudeThreshEB;
configParameters_.amplitudeThreshEE = amplitudeThreshEE;
// out of time thresholds gain-dependent
configParameters_.outOfTimeThreshG12pEB = outOfTimeThreshG12pEB;
configParameters_.outOfTimeThreshG12pEE = outOfTimeThreshG12pEE;
configParameters_.outOfTimeThreshG61pEB = outOfTimeThreshG61pEB;
configParameters_.outOfTimeThreshG61pEE = outOfTimeThreshG61pEE;
configParameters_.outOfTimeThreshG12mEB = outOfTimeThreshG12mEB;
configParameters_.outOfTimeThreshG12mEE = outOfTimeThreshG12mEE;
configParameters_.outOfTimeThreshG61mEB = outOfTimeThreshG61mEB;
configParameters_.outOfTimeThreshG61mEE = outOfTimeThreshG61mEE;
}
EcalUncalibRecHitProducerGPU::~EcalUncalibRecHitProducerGPU() {}
void EcalUncalibRecHitProducerGPU::acquire(edm::Event const& event,
edm::EventSetup const& setup,
edm::WaitingTaskWithArenaHolder holder) {
// cuda products
auto const& ebDigisProduct = event.get(digisTokenEB_);
auto const& eeDigisProduct = event.get(digisTokenEE_);
// raii
cms::cuda::ScopedContextAcquire ctx{ebDigisProduct, std::move(holder), cudaState_};
// get actual obj
auto const& ebDigis = ctx.get(ebDigisProduct);
auto const& eeDigis = ctx.get(eeDigisProduct);
ecal::multifit::EventInputDataGPU inputDataGPU{ebDigis, eeDigis};
neb_ = ebDigis.size;
nee_ = eeDigis.size;
// stop here if there are no digis
if (neb_ + nee_ == 0)
return;
if ((neb_ > configParameters_.maxNumberHitsEB) || (nee_ > configParameters_.maxNumberHitsEE)) {
edm::LogError("EcalUncalibRecHitProducerGPU")
<< "Max number of channels exceeded in barrel or endcap. Number of barrel channels: " << neb_
<< " with maxNumberHitsEB=" << configParameters_.maxNumberHitsEB << ", number of endcap channels: " << nee_
<< " with maxNumberHitsEE=" << configParameters_.maxNumberHitsEE;
}
// conditions
auto const& timeCalibConstantsData = setup.getData(timeCalibConstantsToken_);
auto const& sampleMaskData = setup.getData(sampleMaskToken_);
auto const& timeOffsetConstantData = setup.getData(timeOffsetConstantToken_);
auto const& multifitParametersData = setup.getData(multifitParametersToken_);
auto const& pedestals = setup.getData(pedestalsToken_).getProduct(ctx.stream());
auto const& gainRatios = setup.getData(gainRatiosToken_).getProduct(ctx.stream());
auto const& pulseShapes = setup.getData(pulseShapesToken_).getProduct(ctx.stream());
auto const& pulseCovariances = setup.getData(pulseCovariancesToken_).getProduct(ctx.stream());
auto const& samplesCorrelation = setup.getData(samplesCorrelationToken_).getProduct(ctx.stream());
auto const& timeBiasCorrections = setup.getData(timeBiasCorrectionsToken_).getProduct(ctx.stream());
auto const& timeCalibConstants = timeCalibConstantsData.getProduct(ctx.stream());
auto const& multifitParameters = multifitParametersData.getProduct(ctx.stream());
// assign ptrs/values: this is done not to change how things look downstream
configParameters_.amplitudeFitParametersEB = multifitParameters.amplitudeFitParametersEB.get();
configParameters_.amplitudeFitParametersEE = multifitParameters.amplitudeFitParametersEE.get();
configParameters_.timeFitParametersEB = multifitParameters.timeFitParametersEB.get();
configParameters_.timeFitParametersEE = multifitParameters.timeFitParametersEE.get();
configParameters_.timeFitParametersSizeEB = multifitParametersData.getValues()[2].get().size();
configParameters_.timeFitParametersSizeEE = multifitParametersData.getValues()[3].get().size();
// bundle up conditions
ecal::multifit::ConditionsProducts conditions{pedestals,
gainRatios,
pulseShapes,
pulseCovariances,
samplesCorrelation,
timeBiasCorrections,
timeCalibConstants,
sampleMaskData,
timeOffsetConstantData,
timeCalibConstantsData.getOffset(),
multifitParameters};
// dev mem
eventOutputDataGPU_.allocate(configParameters_, ctx.stream());
// scratch mem
ecal::multifit::EventDataForScratchGPU eventDataForScratchGPU;
eventDataForScratchGPU.allocate(configParameters_, ctx.stream());
//
// schedule algorithms
//
ecal::multifit::entryPoint(
inputDataGPU, eventOutputDataGPU_, eventDataForScratchGPU, conditions, configParameters_, ctx.stream());
}
void EcalUncalibRecHitProducerGPU::produce(edm::Event& event, edm::EventSetup const& setup) {
//DurationMeasurer<std::chrono::milliseconds> timer{std::string{"produce duration"}};
cms::cuda::ScopedContextProduce ctx{cudaState_};
// set the size of eb and ee
eventOutputDataGPU_.recHitsEB.size = neb_;
eventOutputDataGPU_.recHitsEE.size = nee_;
// put into the event
ctx.emplace(event, recHitsTokenEB_, std::move(eventOutputDataGPU_.recHitsEB));
ctx.emplace(event, recHitsTokenEE_, std::move(eventOutputDataGPU_.recHitsEE));
}
DEFINE_FWK_MODULE(EcalUncalibRecHitProducerGPU);