ticl::PatternRecognitionbyCA< TILES > Class Template Reference

#include <PatternRecognitionbyCA.h>

Inheritance diagram for ticl::PatternRecognitionbyCA< TILES >:

Public Member Functions
void	emptyTrackstersFromSeedsTRK (std::vector< Trackster > &tracksters, std::unordered_map< int, std::vector< int >> &seedToTracksterAssociation, const edm::ProductID &collectionID) const
void	energyRegressionAndID (const std::vector< reco::CaloCluster > &layerClusters, const tensorflow::Session *, std::vector< Trackster > &result)
void	makeTracksters (const typename PatternRecognitionAlgoBaseT< TILES >::Inputs &input, std::vector< Trackster > &result, std::unordered_map< int, std::vector< int >> &seedToTracksterAssociation) override
	PatternRecognitionbyCA (const edm::ParameterSet &conf, edm::ConsumesCollector iC)
	~PatternRecognitionbyCA () override
Public Member Functions inherited from ticl::PatternRecognitionAlgoBaseT< TILES >
virtual void	makeTracksters (const Inputs &input, std::vector< Trackster > &result, std::unordered_map< int, std::vector< int >> &seedToTracksterAssociation)=0
	PatternRecognitionAlgoBaseT (const edm::ParameterSet &conf, edm::ConsumesCollector)
virtual	~PatternRecognitionAlgoBaseT ()

Static Public Member Functions
static void	fillPSetDescription (edm::ParameterSetDescription &iDesc)

Private Member Functions
void	mergeTrackstersTRK (const std::vector< Trackster > &, const std::vector< reco::CaloCluster > &, std::vector< Trackster > &, std::unordered_map< int, std::vector< int >> &seedToTracksterAssociation) const

Private Attributes
edm::ESGetToken< CaloGeometry, CaloGeometryRecord >	caloGeomToken_
bool	check_missing_layers_ = false
const std::string	eidInputName_
const float	eidMinClusterEnergy_
const int	eidNClusters_
const int	eidNLayers_
const std::string	eidOutputNameEnergy_
const std::string	eidOutputNameId_
tensorflow::Session *	eidSession_
const double	energy_em_over_total_threshold_
const float	etaLimitIncreaseWindow_
const std::vector< int >	filter_on_categories_
const float	max_delta_time_
const double	max_longitudinal_sigmaPCA_
const int	max_missing_layers_in_trackster_
const unsigned int	max_out_in_hops_
const int	min_clusters_per_ntuplet_
const float	min_cos_pointing_
const float	min_cos_theta_
const unsigned int	min_layers_per_trackster_
const bool	oneTracksterPerTrackSeed_
const bool	out_in_dfs_
const double	pid_threshold_
const bool	promoteEmptyRegionToTrackster_
hgcal::RecHitTools	rhtools_
const float	root_doublet_max_distance_from_seed_squared_
const unsigned int	shower_start_max_layer_
const std::vector< double >	siblings_maxRSquared_
const int	skip_layers_
const std::unique_ptr< HGCGraphT< TILES > >	theGraph_

Static Private Attributes
static const int	eidNFeatures_ = 3

Additional Inherited Members
Protected Attributes inherited from ticl::PatternRecognitionAlgoBaseT< TILES >
int	algo_verbosity_

Detailed Description

template<typename TILES>
class ticl::PatternRecognitionbyCA< TILES >

Definition at line 14 of file PatternRecognitionbyCA.h.

Constructor & Destructor Documentation

PatternRecognitionbyCA()

template<typename TILES >

PatternRecognitionbyCA::PatternRecognitionbyCA	(	const edm::ParameterSet &	conf,
		edm::ConsumesCollector	iC
	)

Definition at line 19 of file PatternRecognitionbyCA.cc.

    : PatternRecognitionAlgoBaseT<TILES>(conf, iC),
      caloGeomToken_(iC.esConsumes<CaloGeometry, CaloGeometryRecord>()),
      theGraph_(std::make_unique<HGCGraphT<TILES>>()),
      oneTracksterPerTrackSeed_(conf.getParameter<bool>("oneTracksterPerTrackSeed")),
      promoteEmptyRegionToTrackster_(conf.getParameter<bool>("promoteEmptyRegionToTrackster")),
      out_in_dfs_(conf.getParameter<bool>("out_in_dfs")),
      max_out_in_hops_(conf.getParameter<int>("max_out_in_hops")),
      min_cos_theta_(conf.getParameter<double>("min_cos_theta")),
      min_cos_pointing_(conf.getParameter<double>("min_cos_pointing")),
      root_doublet_max_distance_from_seed_squared_(
          conf.getParameter<double>("root_doublet_max_distance_from_seed_squared")),
      etaLimitIncreaseWindow_(conf.getParameter<double>("etaLimitIncreaseWindow")),
      skip_layers_(conf.getParameter<int>("skip_layers")),
      max_missing_layers_in_trackster_(conf.getParameter<int>("max_missing_layers_in_trackster")),
      check_missing_layers_(max_missing_layers_in_trackster_ < 100),
      shower_start_max_layer_(conf.getParameter<int>("shower_start_max_layer")),
      min_layers_per_trackster_(conf.getParameter<int>("min_layers_per_trackster")),
      filter_on_categories_(conf.getParameter<std::vector<int>>("filter_on_categories")),
      pid_threshold_(conf.getParameter<double>("pid_threshold")),
      energy_em_over_total_threshold_(conf.getParameter<double>("energy_em_over_total_threshold")),
      max_longitudinal_sigmaPCA_(conf.getParameter<double>("max_longitudinal_sigmaPCA")),
      min_clusters_per_ntuplet_(min_layers_per_trackster_),
      max_delta_time_(conf.getParameter<double>("max_delta_time")),
      eidInputName_(conf.getParameter<std::string>("eid_input_name")),
      eidOutputNameEnergy_(conf.getParameter<std::string>("eid_output_name_energy")),
      eidOutputNameId_(conf.getParameter<std::string>("eid_output_name_id")),
      eidMinClusterEnergy_(conf.getParameter<double>("eid_min_cluster_energy")),
      eidNLayers_(conf.getParameter<int>("eid_n_layers")),
      eidNClusters_(conf.getParameter<int>("eid_n_clusters")),
      siblings_maxRSquared_(conf.getParameter<std::vector<double>>("siblings_maxRSquared")){};

~PatternRecognitionbyCA()

template<typename TILES >

PatternRecognitionbyCA::~PatternRecognitionbyCA ( )

override

Definition at line 52 of file PatternRecognitionbyCA.cc.

{};

Member Function Documentation

emptyTrackstersFromSeedsTRK()

template<typename TILES >

void PatternRecognitionbyCA::emptyTrackstersFromSeedsTRK	(	std::vector< Trackster > &	tracksters,
		std::unordered_map< int, std::vector< int >> &	seedToTracksterAssociation,
		const edm::ProductID &	collectionID
	)		const

Definition at line 328 of file PatternRecognitionbyCA.cc.

References ticl::Trackster::charged_hadron, f, and submitPVValidationJobs::t.

                                            {
  for (auto &thisSeed : seedToTracksterAssociation) {
    if (thisSeed.second.empty()) {
      Trackster t;
      t.setRegressedEnergy(0.f);
      t.zeroProbabilities();
      t.setIdProbability(ticl::Trackster::ParticleType::charged_hadron, 1.f);
      t.setSeed(collectionID, thisSeed.first);
      tracksters.emplace_back(t);
      thisSeed.second.emplace_back(tracksters.size() - 1);
    }
  }
}

energyRegressionAndID()

template<typename TILES >

void PatternRecognitionbyCA::energyRegressionAndID	(	const std::vector< reco::CaloCluster > &	layerClusters,
		const tensorflow::Session *	eidSession,
		std::vector< Trackster > &	result
	)

Definition at line 346 of file PatternRecognitionbyCA.cc.

References a, funct::abs(), b, HLT_FULL_cff::batchSize, data, hcalRecHitTable_cff::energy, reco::CaloCluster::energy(), reco::CaloCluster::eta(), f, lowptgsfeleseed::features(), nano_mu_digi_cff::float, reco::CaloCluster::hitsAndFractions(), mps_fire::i, input, crabTemplate::inputList, createfilelist::int, dqmiolumiharvest::j, dqmdumpme::k, MainPageGenerator::l, hltEgammaHGCALIDVarsL1Seeded_cfi::layerClusters, jetsAK4_CHS_cff::outputNames, PatBasicFWLiteJetAnalyzer_Selector_cfg::outputs, reco::CaloCluster::phi(), tensorflow::run(), l1trig_cff::shape, jetUpdater_cfi::sort, bphysicsOniaDQM_cfi::vertex, ticl::Trackster::vertex_multiplicity(), AlignmentTracksFromVertexSelector_cfi::vertices, and ticl::Trackster::vertices().

                                                                                            {
  // Energy regression and particle identification strategy:
  //
  // 1. Set default values for regressed energy and particle id for each trackster.
  // 2. Store indices of tracksters whose total sum of cluster energies is above the
  //    eidMinClusterEnergy_ (GeV) threshold. Inference is not applied for soft tracksters.
  // 3. When no trackster passes the selection, return.
  // 4. Create input and output tensors. The batch dimension is determined by the number of
  //    selected tracksters.
  // 5. Fill input tensors with layer cluster features. Per layer, clusters are ordered descending
  //    by energy. Given that tensor data is contiguous in memory, we can use pointer arithmetic to
  //    fill values, even with batching.
  // 6. Zero-fill features for empty clusters in each layer.
  // 7. Batched inference.
  // 8. Assign the regressed energy and id probabilities to each trackster.
  //
  // Indices used throughout this method:
  // i -> batch element / trackster
  // j -> layer
  // k -> cluster
  // l -> feature

  // set default values per trackster, determine if the cluster energy threshold is passed,
  // and store indices of hard tracksters
  std::vector<int> tracksterIndices;
  for (int i = 0; i < (int)tracksters.size(); i++) {
    // calculate the cluster energy sum (2)
    // note: after the loop, sumClusterEnergy might be just above the threshold which is enough to
    // decide whether to run inference for the trackster or not
    float sumClusterEnergy = 0.;
    for (const unsigned int &vertex : tracksters[i].vertices()) {
      sumClusterEnergy += (float)layerClusters[vertex].energy();
      // there might be many clusters, so try to stop early
      if (sumClusterEnergy >= eidMinClusterEnergy_) {
        // set default values (1)
        tracksters[i].setRegressedEnergy(0.f);
        tracksters[i].zeroProbabilities();
        tracksterIndices.push_back(i);
        break;
      }
    }
  }

  // do nothing when no trackster passes the selection (3)
  int batchSize = (int)tracksterIndices.size();
  if (batchSize == 0) {
    return;
  }

  // create input and output tensors (4)
  tensorflow::TensorShape shape({batchSize, eidNLayers_, eidNClusters_, eidNFeatures_});
  tensorflow::Tensor input(tensorflow::DT_FLOAT, shape);
  tensorflow::NamedTensorList inputList = {{eidInputName_, input}};

  std::vector<tensorflow::Tensor> outputs;
  std::vector<std::string> outputNames;
  if (!eidOutputNameEnergy_.empty()) {
    outputNames.push_back(eidOutputNameEnergy_);
  }
  if (!eidOutputNameId_.empty()) {
    outputNames.push_back(eidOutputNameId_);
  }

  // fill input tensor (5)
  for (int i = 0; i < batchSize; i++) {
    const Trackster &trackster = tracksters[tracksterIndices[i]];

    // per layer, we only consider the first eidNClusters_ clusters in terms of energy, so in order
    // to avoid creating large / nested structures to do the sorting for an unknown number of total
    // clusters, create a sorted list of layer cluster indices to keep track of the filled clusters
    std::vector<int> clusterIndices(trackster.vertices().size());
    for (int k = 0; k < (int)trackster.vertices().size(); k++) {
      clusterIndices[k] = k;
    }
    sort(clusterIndices.begin(), clusterIndices.end(), [&layerClusters, &trackster](const int &a, const int &b) {
      return layerClusters[trackster.vertices(a)].energy() > layerClusters[trackster.vertices(b)].energy();
    });

    // keep track of the number of seen clusters per layer
    std::vector<int> seenClusters(eidNLayers_);

    // loop through clusters by descending energy
    for (const int &k : clusterIndices) {
      // get features per layer and cluster and store the values directly in the input tensor
      const reco::CaloCluster &cluster = layerClusters[trackster.vertices(k)];
      int j = rhtools_.getLayerWithOffset(cluster.hitsAndFractions()[0].first) - 1;
      if (j < eidNLayers_ && seenClusters[j] < eidNClusters_) {
        // get the pointer to the first feature value for the current batch, layer and cluster
        float *features = &input.tensor<float, 4>()(i, j, seenClusters[j], 0);

        // fill features
        *(features++) = float(cluster.energy() / float(trackster.vertex_multiplicity(k)));
        *(features++) = float(std::abs(cluster.eta()));
        *(features) = float(cluster.phi());

        // increment seen clusters
        seenClusters[j]++;
      }
    }

    // zero-fill features of empty clusters in each layer (6)
    for (int j = 0; j < eidNLayers_; j++) {
      for (int k = seenClusters[j]; k < eidNClusters_; k++) {
        float *features = &input.tensor<float, 4>()(i, j, k, 0);
        for (int l = 0; l < eidNFeatures_; l++) {
          *(features++) = 0.f;
        }
      }
    }
  }

  // run the inference (7)
  tensorflow::run(eidSession, inputList, outputNames, &outputs);

  // store regressed energy per trackster (8)
  if (!eidOutputNameEnergy_.empty()) {
    // get the pointer to the energy tensor, dimension is batch x 1
    float *energy = outputs[0].flat<float>().data();

    for (const int &i : tracksterIndices) {
      tracksters[i].setRegressedEnergy(*(energy++));
    }
  }

  // store id probabilities per trackster (8)
  if (!eidOutputNameId_.empty()) {
    // get the pointer to the id probability tensor, dimension is batch x id_probabilities.size()
    int probsIdx = eidOutputNameEnergy_.empty() ? 0 : 1;
    float *probs = outputs[probsIdx].flat<float>().data();

    for (const int &i : tracksterIndices) {
      tracksters[i].setProbabilities(probs);
      probs += tracksters[i].id_probabilities().size();
    }
  }
}

fillPSetDescription()

template<typename TILES >

void PatternRecognitionbyCA::fillPSetDescription ( edm::ParameterSetDescription &  iDesc )

static

Definition at line 486 of file PatternRecognitionbyCA.cc.

References edm::ParameterSetDescription::add(), MillePedeFileConverter_cfg::e, edm::ParameterDescriptionNode::setComment(), and AlCaHLTBitMon_QueryRunRegistry::string.

                                                                                         {
  iDesc.add<int>("algo_verbosity", 0);
  iDesc.add<bool>("oneTracksterPerTrackSeed", false);
  iDesc.add<bool>("promoteEmptyRegionToTrackster", false);
  iDesc.add<bool>("out_in_dfs", true);
  iDesc.add<int>("max_out_in_hops", 10);
  iDesc.add<double>("min_cos_theta", 0.915);
  iDesc.add<double>("min_cos_pointing", -1.);
  iDesc.add<double>("root_doublet_max_distance_from_seed_squared", 9999);
  iDesc.add<double>("etaLimitIncreaseWindow", 2.1);
  iDesc.add<int>("skip_layers", 0);
  iDesc.add<int>("max_missing_layers_in_trackster", 9999);
  iDesc.add<int>("shower_start_max_layer", 9999)->setComment("make default such that no filtering is applied");
  iDesc.add<int>("min_layers_per_trackster", 10);
  iDesc.add<std::vector<int>>("filter_on_categories", {0});
  iDesc.add<double>("pid_threshold", 0.)->setComment("make default such that no filtering is applied");
  iDesc.add<double>("energy_em_over_total_threshold", -1.)
      ->setComment("make default such that no filtering is applied");
  iDesc.add<double>("max_longitudinal_sigmaPCA", 9999);
  iDesc.add<double>("max_delta_time", 3.)->setComment("nsigma");
  iDesc.add<std::string>("eid_input_name", "input");
  iDesc.add<std::string>("eid_output_name_energy", "output/regressed_energy");
  iDesc.add<std::string>("eid_output_name_id", "output/id_probabilities");
  iDesc.add<double>("eid_min_cluster_energy", 1.);
  iDesc.add<int>("eid_n_layers", 50);
  iDesc.add<int>("eid_n_clusters", 10);
  iDesc.add<std::vector<double>>("siblings_maxRSquared", {6e-4, 6e-4, 6e-4});
}

makeTracksters()

template<typename TILES >

void PatternRecognitionbyCA::makeTracksters ( const typename PatternRecognitionAlgoBaseT< TILES >::Inputs &  input, std::vector< Trackster > &  result, std::unordered_map< int, std::vector< int >> &  seedToTracksterAssociation  )

override

Definition at line 55 of file PatternRecognitionbyCA.cc.

References ticl::Advanced, cms::cuda::assert(), ticl::assignPCAtoTracksters(), ticl::Basic, ALPAKA_ACCELERATOR_NAMESPACE::brokenline::constexpr(), filterCSVwithJSON::copy, HLT_2024v11_cff::doublets, dqmdumpme::first, caHitNtupletGeneratorKernels::foundNtuplets, relativeConstraints::geom, edm::EventSetup::getData(), mps_fire::i, input, createfilelist::int, dqmiolumiharvest::j, LogDebug, SiStripPI::min, L1TMuonDQMOffline_cfi::nEtaBins, None, ecaldqm::binning::nPhiBins, pixelTracksMonitoring_cff::ntuplet, AlCaHLTBitMon_ParallelJobs::p, mps_fire::result, jetUpdater_cfi::sort, submitPVValidationJobs::t, createJobs::tmp, tier0::unique(), and relativeConstraints::value.

                                                                       {
  // Protect from events with no seeding regions
  if (input.regions.empty())
    return;

  edm::EventSetup const &es = input.es;
  const CaloGeometry &geom = es.getData(caloGeomToken_);
  rhtools_.setGeometry(geom);

  theGraph_->setVerbosity(PatternRecognitionAlgoBaseT<TILES>::algo_verbosity_);
  theGraph_->clear();
  if (PatternRecognitionAlgoBaseT<TILES>::algo_verbosity_ > VerbosityLevel::None) {
    LogDebug("HGCPatternRecoByCA") << "Making Tracksters with CA" << std::endl;
  }

  constexpr auto isHFnose = std::is_same<TILES, TICLLayerTilesHFNose>::value;
  constexpr int nEtaBin = TILES::constants_type_t::nEtaBins;
  constexpr int nPhiBin = TILES::constants_type_t::nPhiBins;

  bool isRegionalIter = (input.regions[0].index != -1);
  std::vector<HGCDoublet::HGCntuplet> foundNtuplets;
  std::vector<int> seedIndices;
  std::vector<uint8_t> layer_cluster_usage(input.layerClusters.size(), 0);
  theGraph_->makeAndConnectDoublets(input.tiles,
                                    input.regions,
                                    nEtaBin,
                                    nPhiBin,
                                    input.layerClusters,
                                    input.mask,
                                    input.layerClustersTime,
                                    1,
                                    1,
                                    min_cos_theta_,
                                    min_cos_pointing_,
                                    root_doublet_max_distance_from_seed_squared_,
                                    etaLimitIncreaseWindow_,
                                    skip_layers_,
                                    rhtools_.lastLayer(isHFnose),
                                    max_delta_time_,
                                    rhtools_.lastLayerEE(isHFnose),
                                    rhtools_.lastLayerFH(),
                                    siblings_maxRSquared_);

  theGraph_->findNtuplets(foundNtuplets, seedIndices, min_clusters_per_ntuplet_, out_in_dfs_, max_out_in_hops_);
  //#ifdef FP_DEBUG
  const auto &doublets = theGraph_->getAllDoublets();
  int tracksterId = -1;

  // container for holding tracksters before selection
  std::vector<Trackster> tmpTracksters;
  tmpTracksters.reserve(foundNtuplets.size());

  for (auto const &ntuplet : foundNtuplets) {
    tracksterId++;

    std::set<unsigned int> effective_cluster_idx;

    for (auto const &doublet : ntuplet) {
      auto innerCluster = doublets[doublet].innerClusterId();
      auto outerCluster = doublets[doublet].outerClusterId();

      effective_cluster_idx.insert(innerCluster);
      effective_cluster_idx.insert(outerCluster);

      if (PatternRecognitionAlgoBaseT<TILES>::algo_verbosity_ > VerbosityLevel::Advanced) {
        LogDebug("HGCPatternRecoByCA") << " New doublet " << doublet << " for trackster: " << result.size()
                                       << " InnerCl " << innerCluster << " " << input.layerClusters[innerCluster].x()
                                       << " " << input.layerClusters[innerCluster].y() << " "
                                       << input.layerClusters[innerCluster].z() << " OuterCl " << outerCluster << " "
                                       << input.layerClusters[outerCluster].x() << " "
                                       << input.layerClusters[outerCluster].y() << " "
                                       << input.layerClusters[outerCluster].z() << " " << tracksterId << std::endl;
      }
    }
    unsigned showerMinLayerId = 99999;
    std::vector<unsigned int> uniqueLayerIds;
    uniqueLayerIds.reserve(effective_cluster_idx.size());
    std::vector<std::pair<unsigned int, unsigned int>> lcIdAndLayer;
    lcIdAndLayer.reserve(effective_cluster_idx.size());
    for (auto const i : effective_cluster_idx) {
      auto const &haf = input.layerClusters[i].hitsAndFractions();
      auto layerId = rhtools_.getLayerWithOffset(haf[0].first);
      showerMinLayerId = std::min(layerId, showerMinLayerId);
      uniqueLayerIds.push_back(layerId);
      lcIdAndLayer.emplace_back(i, layerId);
    }
    std::sort(uniqueLayerIds.begin(), uniqueLayerIds.end());
    uniqueLayerIds.erase(std::unique(uniqueLayerIds.begin(), uniqueLayerIds.end()), uniqueLayerIds.end());
    unsigned int numberOfLayersInTrackster = uniqueLayerIds.size();
    if (check_missing_layers_) {
      int numberOfMissingLayers = 0;
      unsigned int j = showerMinLayerId;
      unsigned int indexInVec = 0;
      for (const auto &layer : uniqueLayerIds) {
        if (layer != j) {
          numberOfMissingLayers++;
          j++;
          if (numberOfMissingLayers > max_missing_layers_in_trackster_) {
            numberOfLayersInTrackster = indexInVec;
            for (auto &llpair : lcIdAndLayer) {
              if (llpair.second >= layer) {
                effective_cluster_idx.erase(llpair.first);
              }
            }
            break;
          }
        }
        indexInVec++;
        j++;
      }
    }
    if ((numberOfLayersInTrackster >= min_layers_per_trackster_) and (showerMinLayerId <= shower_start_max_layer_)) {
      // Put back indices, in the form of a Trackster, into the results vector
      Trackster tmp;
      tmp.vertices().reserve(effective_cluster_idx.size());
      tmp.vertex_multiplicity().resize(effective_cluster_idx.size(), 1);
      //regions and seedIndices can have different size
      //if a seeding region does not lead to any trackster
      tmp.setSeed(input.regions[0].collectionID, seedIndices[tracksterId]);

      std::copy(std::begin(effective_cluster_idx), std::end(effective_cluster_idx), std::back_inserter(tmp.vertices()));
      tmpTracksters.push_back(tmp);
    }
  }
  ticl::assignPCAtoTracksters(tmpTracksters,
                              input.layerClusters,
                              input.layerClustersTime,
                              rhtools_.getPositionLayer(rhtools_.lastLayerEE(isHFnose), isHFnose).z());

  // run energy regression and ID
  energyRegressionAndID(input.layerClusters, input.tfSession, tmpTracksters);
  // Filter results based on PID criteria or EM/Total energy ratio.
  // We want to **keep** tracksters whose cumulative
  // probability summed up over the selected categories
  // is greater than the chosen threshold. Therefore
  // the filtering function should **discard** all
  // tracksters **below** the threshold.
  auto filter_on_pids = [&](Trackster &t) -> bool {
    auto cumulative_prob = 0.;
    for (auto index : filter_on_categories_) {
      cumulative_prob += t.id_probabilities(index);
    }
    return (cumulative_prob <= pid_threshold_) &&
           (t.raw_em_energy() < energy_em_over_total_threshold_ * t.raw_energy());
  };

  std::vector<unsigned int> selectedTrackstersIds;
  for (unsigned i = 0; i < tmpTracksters.size(); ++i) {
    if (!filter_on_pids(tmpTracksters[i]) and tmpTracksters[i].sigmasPCA()[0] < max_longitudinal_sigmaPCA_) {
      selectedTrackstersIds.push_back(i);
    }
  }

  result.reserve(selectedTrackstersIds.size());

  for (unsigned i = 0; i < selectedTrackstersIds.size(); ++i) {
    const auto &t = tmpTracksters[selectedTrackstersIds[i]];
    for (auto const lcId : t.vertices()) {
      layer_cluster_usage[lcId]++;
      if (PatternRecognitionAlgoBaseT<TILES>::algo_verbosity_ > VerbosityLevel::Basic)
        LogDebug("HGCPatternRecoByCA") << "LayerID: " << lcId << " count: " << (int)layer_cluster_usage[lcId]
                                       << std::endl;
    }
    if (isRegionalIter) {
      seedToTracksterAssociation[t.seedIndex()].push_back(i);
    }
    result.push_back(t);
  }

  for (auto &trackster : result) {
    assert(trackster.vertices().size() <= trackster.vertex_multiplicity().size());
    for (size_t i = 0; i < trackster.vertices().size(); ++i) {
      trackster.vertex_multiplicity()[i] = layer_cluster_usage[trackster.vertices(i)];
      if (PatternRecognitionAlgoBaseT<TILES>::algo_verbosity_ > VerbosityLevel::Basic)
        LogDebug("HGCPatternRecoByCA") << "LayerID: " << trackster.vertices(i)
                                       << " count: " << (int)trackster.vertex_multiplicity(i) << std::endl;
    }
  }
  // Now decide if the tracksters from the track-based iterations have to be merged
  if (oneTracksterPerTrackSeed_) {
    std::vector<Trackster> tmp;
    mergeTrackstersTRK(result, input.layerClusters, tmp, seedToTracksterAssociation);
    tmp.swap(result);
  }

  ticl::assignPCAtoTracksters(result,
                              input.layerClusters,
                              input.layerClustersTime,
                              rhtools_.getPositionLayer(rhtools_.lastLayerEE(isHFnose), isHFnose).z());

  // run energy regression and ID
  energyRegressionAndID(input.layerClusters, input.tfSession, result);

  // now adding dummy tracksters from seeds not connected to any shower in the result collection
  // these are marked as charged hadrons with probability 1.
  if (promoteEmptyRegionToTrackster_) {
    emptyTrackstersFromSeedsTRK(result, seedToTracksterAssociation, input.regions[0].collectionID);
  }

  if (PatternRecognitionAlgoBaseT<TILES>::algo_verbosity_ > VerbosityLevel::Advanced) {
    for (auto &trackster : result) {
      LogDebug("HGCPatternRecoByCA") << "Trackster characteristics: " << std::endl;
      LogDebug("HGCPatternRecoByCA") << "Size: " << trackster.vertices().size() << std::endl;
      auto counter = 0;
      for (auto const &p : trackster.id_probabilities()) {
        LogDebug("HGCPatternRecoByCA") << counter++ << ": " << p << std::endl;
      }
    }
  }
  theGraph_->clear();
}

mergeTrackstersTRK()

template<typename TILES >

void PatternRecognitionbyCA::mergeTrackstersTRK ( const std::vector< Trackster > &  input, const std::vector< reco::CaloCluster > &  layerClusters, std::vector< Trackster > &  output, std::unordered_map< int, std::vector< int >> &  seedToTracksterAssociation  ) const

private

Definition at line 271 of file PatternRecognitionbyCA.cc.

References ticl::Basic, filterCSVwithJSON::copy, HLT_2024v11_cff::distance, spr::find(), input, dqmiolumiharvest::j, LogDebug, GetRecoTauVFromDQM_MC_cff::next, and jetUpdater_cfi::sort.

                                                                             {
  output.reserve(input.size());
  for (auto &thisSeed : seedToTracksterAssociation) {
    auto &tracksters = thisSeed.second;
    if (!tracksters.empty()) {
      auto numberOfTrackstersInSeed = tracksters.size();
      output.emplace_back(input[tracksters[0]]);
      auto &outTrackster = output.back();
      tracksters[0] = output.size() - 1;
      auto updated_size = outTrackster.vertices().size();
      for (unsigned int j = 1; j < numberOfTrackstersInSeed; ++j) {
        auto &thisTrackster = input[tracksters[j]];
        updated_size += thisTrackster.vertices().size();
        if (PatternRecognitionAlgoBaseT<TILES>::algo_verbosity_ > VerbosityLevel::Basic) {
          LogDebug("HGCPatternRecoByCA") << "Updated size: " << updated_size << std::endl;
        }
        outTrackster.vertices().reserve(updated_size);
        outTrackster.vertex_multiplicity().reserve(updated_size);
        std::copy(std::begin(thisTrackster.vertices()),
                  std::end(thisTrackster.vertices()),
                  std::back_inserter(outTrackster.vertices()));
        std::copy(std::begin(thisTrackster.vertex_multiplicity()),
                  std::end(thisTrackster.vertex_multiplicity()),
                  std::back_inserter(outTrackster.vertex_multiplicity()));
      }
      tracksters.resize(1);

      // Find duplicate LCs
      auto &orig_vtx = outTrackster.vertices();
      auto vtx_sorted{orig_vtx};
      std::sort(std::begin(vtx_sorted), std::end(vtx_sorted));
      for (unsigned int iLC = 1; iLC < vtx_sorted.size(); ++iLC) {
        if (vtx_sorted[iLC] == vtx_sorted[iLC - 1]) {
          // Clean up duplicate LCs
          const auto lcIdx = vtx_sorted[iLC];
          const auto firstEl = std::find(orig_vtx.begin(), orig_vtx.end(), lcIdx);
          const auto firstPos = std::distance(std::begin(orig_vtx), firstEl);
          auto iDup = std::find(std::next(firstEl), orig_vtx.end(), lcIdx);
          while (iDup != orig_vtx.end()) {
            orig_vtx.erase(iDup);
            outTrackster.vertex_multiplicity().erase(outTrackster.vertex_multiplicity().begin() +
                                                     std::distance(std::begin(orig_vtx), iDup));
            outTrackster.vertex_multiplicity()[firstPos] -= 1;
            iDup = std::find(std::next(firstEl), orig_vtx.end(), lcIdx);
          };
        }
      }
    }
  }
  output.shrink_to_fit();
}

Member Data Documentation

caloGeomToken_

template<typename TILES >

edm::ESGetToken<CaloGeometry, CaloGeometryRecord> ticl::PatternRecognitionbyCA< TILES >::caloGeomToken_

private

Definition at line 37 of file PatternRecognitionbyCA.h.

check_missing_layers_

template<typename TILES >

bool ticl::PatternRecognitionbyCA< TILES >::check_missing_layers_ = false

private

Definition at line 49 of file PatternRecognitionbyCA.h.

eidInputName_

template<typename TILES >

const std::string ticl::PatternRecognitionbyCA< TILES >::eidInputName_

private

Definition at line 58 of file PatternRecognitionbyCA.h.

eidMinClusterEnergy_

template<typename TILES >

const float ticl::PatternRecognitionbyCA< TILES >::eidMinClusterEnergy_

private

Definition at line 61 of file PatternRecognitionbyCA.h.

eidNClusters_

template<typename TILES >

const int ticl::PatternRecognitionbyCA< TILES >::eidNClusters_

private

Definition at line 63 of file PatternRecognitionbyCA.h.

eidNFeatures_

template<typename TILES >

const int ticl::PatternRecognitionbyCA< TILES >::eidNFeatures_ = 3

staticprivate

Definition at line 69 of file PatternRecognitionbyCA.h.

eidNLayers_

template<typename TILES >

const int ticl::PatternRecognitionbyCA< TILES >::eidNLayers_

private

Definition at line 62 of file PatternRecognitionbyCA.h.

eidOutputNameEnergy_

template<typename TILES >

const std::string ticl::PatternRecognitionbyCA< TILES >::eidOutputNameEnergy_

private

Definition at line 59 of file PatternRecognitionbyCA.h.

eidOutputNameId_

template<typename TILES >

const std::string ticl::PatternRecognitionbyCA< TILES >::eidOutputNameId_

private

Definition at line 60 of file PatternRecognitionbyCA.h.

eidSession_

template<typename TILES >

tensorflow::Session* ticl::PatternRecognitionbyCA< TILES >::eidSession_

private

Definition at line 66 of file PatternRecognitionbyCA.h.

energy_em_over_total_threshold_

template<typename TILES >

const double ticl::PatternRecognitionbyCA< TILES >::energy_em_over_total_threshold_

private

Definition at line 54 of file PatternRecognitionbyCA.h.

etaLimitIncreaseWindow_

template<typename TILES >

const float ticl::PatternRecognitionbyCA< TILES >::etaLimitIncreaseWindow_

private

Definition at line 46 of file PatternRecognitionbyCA.h.

filter_on_categories_

template<typename TILES >

const std::vector<int> ticl::PatternRecognitionbyCA< TILES >::filter_on_categories_

private

Definition at line 52 of file PatternRecognitionbyCA.h.

max_delta_time_

template<typename TILES >

const float ticl::PatternRecognitionbyCA< TILES >::max_delta_time_

private

Definition at line 57 of file PatternRecognitionbyCA.h.

max_longitudinal_sigmaPCA_

template<typename TILES >

const double ticl::PatternRecognitionbyCA< TILES >::max_longitudinal_sigmaPCA_

private

Definition at line 55 of file PatternRecognitionbyCA.h.

max_missing_layers_in_trackster_

template<typename TILES >

const int ticl::PatternRecognitionbyCA< TILES >::max_missing_layers_in_trackster_

private

Definition at line 48 of file PatternRecognitionbyCA.h.

max_out_in_hops_

template<typename TILES >

const unsigned int ticl::PatternRecognitionbyCA< TILES >::max_out_in_hops_

private

Definition at line 42 of file PatternRecognitionbyCA.h.

min_clusters_per_ntuplet_

template<typename TILES >

const int ticl::PatternRecognitionbyCA< TILES >::min_clusters_per_ntuplet_

private

Definition at line 56 of file PatternRecognitionbyCA.h.

min_cos_pointing_

template<typename TILES >

const float ticl::PatternRecognitionbyCA< TILES >::min_cos_pointing_

private

Definition at line 44 of file PatternRecognitionbyCA.h.

min_cos_theta_

template<typename TILES >

const float ticl::PatternRecognitionbyCA< TILES >::min_cos_theta_

private

Definition at line 43 of file PatternRecognitionbyCA.h.

min_layers_per_trackster_

template<typename TILES >

const unsigned int ticl::PatternRecognitionbyCA< TILES >::min_layers_per_trackster_

private

Definition at line 51 of file PatternRecognitionbyCA.h.

oneTracksterPerTrackSeed_

template<typename TILES >

const bool ticl::PatternRecognitionbyCA< TILES >::oneTracksterPerTrackSeed_

private

Definition at line 39 of file PatternRecognitionbyCA.h.

out_in_dfs_

template<typename TILES >

const bool ticl::PatternRecognitionbyCA< TILES >::out_in_dfs_

private

Definition at line 41 of file PatternRecognitionbyCA.h.

pid_threshold_

template<typename TILES >

const double ticl::PatternRecognitionbyCA< TILES >::pid_threshold_

private

Definition at line 53 of file PatternRecognitionbyCA.h.

promoteEmptyRegionToTrackster_

template<typename TILES >

const bool ticl::PatternRecognitionbyCA< TILES >::promoteEmptyRegionToTrackster_

private

Definition at line 40 of file PatternRecognitionbyCA.h.

rhtools_

template<typename TILES >

hgcal::RecHitTools ticl::PatternRecognitionbyCA< TILES >::rhtools_

private

Definition at line 65 of file PatternRecognitionbyCA.h.

root_doublet_max_distance_from_seed_squared_

template<typename TILES >

const float ticl::PatternRecognitionbyCA< TILES >::root_doublet_max_distance_from_seed_squared_

private

Definition at line 45 of file PatternRecognitionbyCA.h.

shower_start_max_layer_

template<typename TILES >

const unsigned int ticl::PatternRecognitionbyCA< TILES >::shower_start_max_layer_

private

Definition at line 50 of file PatternRecognitionbyCA.h.

siblings_maxRSquared_

template<typename TILES >

const std::vector<double> ticl::PatternRecognitionbyCA< TILES >::siblings_maxRSquared_

private

Definition at line 67 of file PatternRecognitionbyCA.h.

skip_layers_

template<typename TILES >

const int ticl::PatternRecognitionbyCA< TILES >::skip_layers_

private

Definition at line 47 of file PatternRecognitionbyCA.h.

theGraph_

template<typename TILES >

const std::unique_ptr<HGCGraphT<TILES> > ticl::PatternRecognitionbyCA< TILES >::theGraph_

private

Definition at line 38 of file PatternRecognitionbyCA.h.