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TMTrackProducer.cc
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14 
17 
18 #include <iostream>
19 #include <vector>
20 #include <list>
21 #include <set>
22 #include <sstream>
23 #include <mutex>
24 
25 using namespace std;
26 
27 namespace tmtt {
28 
29  namespace {
30  std::once_flag printOnce;
31  std::once_flag callOnce;
32  } // namespace
33 
34  std::unique_ptr<GlobalCacheTMTT> TMTrackProducer::initializeGlobalCache(edm::ParameterSet const& iConfig) {
35  return std::make_unique<GlobalCacheTMTT>(iConfig);
36  }
37 
38  TMTrackProducer::TMTrackProducer(const edm::ParameterSet& iConfig, GlobalCacheTMTT const* globalCacheTMTT)
39  : settings_(iConfig), // Set configuration parameters
40  stubWindowSuggest_(globalCacheTMTT->stubWindowSuggest()), // For tuning FE stub window sizes
41  hists_(globalCacheTMTT->hists()), // Initialize histograms
42  htRphiErrMon_(globalCacheTMTT->htRphiErrMon()), // rphi HT error monitoring
43  debug_(true) // Debug printout
44  {
45  using namespace edm;
46 
47  // Get tokens for ES data access.
49  esConsumes<MagneticField, IdealMagneticFieldRecord, Transition::BeginRun>(settings_.magneticFieldInputTag());
50  trackerGeometryToken_ = esConsumes<TrackerGeometry, TrackerDigiGeometryRecord, Transition::BeginRun>(
53  esConsumes<TrackerTopology, TrackerTopologyRcd, Transition::BeginRun>(settings_.trackerTopologyInputTag());
55  esConsumes<StubAlgorithm, TTStubAlgorithmRecord, Transition::BeginRun>(settings_.ttStubAlgoInputTag());
56 
57  // Get tokens for ED data access.
58  stubToken_ = consumes<TTStubDetSetVec>(settings_.stubInputTag());
59  if (settings_.enableMCtruth()) {
60  // These lines use lots of CPU, even if no use of truth info is made later.
61  tpToken_ = consumes<TrackingParticleCollection>(settings_.tpInputTag());
62  stubTruthToken_ = consumes<TTStubAssMap>(settings_.stubTruthInputTag());
63  clusterTruthToken_ = consumes<TTClusterAssMap>(settings_.clusterTruthInputTag());
64  genJetToken_ = consumes<reco::GenJetCollection>(settings_.genJetInputTag());
65  }
66 
69  runRZfilter_ = (not useRZfilter_.empty()); // Do any fitters require an r-z track filter to be run?
70 
71  // Book histograms.
72  //hists_.book();
73 
74  // Create track fitting algorithm
75  for (const string& fitterName : trackFitters_) {
76  fitterWorkerMap_[fitterName] = trackFitFactory::create(fitterName, &settings_);
77  }
78 
79  //--- Define EDM output to be written to file (if required)
80 
82  // L1 tracks found by Hough Transform
83  produces<TTTrackCollection>("TML1TracksHT").setBranchAlias("TML1TracksHT");
84  // L1 tracks found by r-z track filter.
85  if (runRZfilter_)
86  produces<TTTrackCollection>("TML1TracksRZ").setBranchAlias("TML1TracksRZ");
87  }
88  // L1 tracks after track fit by each of the fitting algorithms under study
89  for (const string& fitterName : trackFitters_) {
90  string edmName = string("TML1Tracks") + fitterName;
91  produces<TTTrackCollection>(edmName).setBranchAlias(edmName);
92  }
93  }
94 
95  //=== Run every run
96 
97  void TMTrackProducer::beginRun(const edm::Run& iRun, const edm::EventSetup& iSetup) {
98  // Get the B-field and store its value in the Settings class.
99  const MagneticField* theMagneticField = &(iSetup.getData(magneticFieldToken_));
100  float bField = theMagneticField->inTesla(GlobalPoint(0, 0, 0)).z(); // B field in Tesla.
102 
103  // Set also B field in GlobalCacheTMTT (used only for Histogramming)
104  globalCache()->settings().setMagneticField(bField);
105 
106  std::stringstream text;
107  text << "\n--- B field = " << bField << " Tesla ---\n";
108  std::call_once(
109  printOnce, [](string t) { PrintL1trk() << t; }, text.str());
110 
111  // Get tracker geometry
114 
115  // Loop over tracker modules to get module info.
116 
117  // Identifies tracker module type for firmware.
118  TrackerModule::ModuleTypeCfg moduleTypeCfg;
119  moduleTypeCfg.pitchVsType = settings_.pitchVsType();
120  moduleTypeCfg.spaceVsType = settings_.spaceVsType();
121  moduleTypeCfg.barrelVsType = settings_.barrelVsType();
122  moduleTypeCfg.psVsType = settings_.psVsType();
123  moduleTypeCfg.tiltedVsType = settings_.tiltedVsType();
124 
125  listTrackerModule_.clear();
126  for (const GeomDet* gd : trackerGeometry_->dets()) {
127  DetId detId = gd->geographicalId();
128  // Phase 2 Outer Tracker uses TOB for entire barrel & TID for entire endcap.
129  if (detId.subdetId() != StripSubdetector::TOB && detId.subdetId() != StripSubdetector::TID)
130  continue;
131  if (trackerTopology_->isLower(detId)) { // Select only lower of the two sensors in a module.
132  // Store info about this tracker module.
133  listTrackerModule_.emplace_back(trackerGeometry_, trackerTopology_, moduleTypeCfg, detId);
134  }
135  }
136 
137  // Takes one copy of this to GlobalCacheTMTT for later histogramming.
138  globalCache()->setListTrackerModule(listTrackerModule_);
139 
140  // Get TTStubProducerAlgorithm algorithm, to adjust stub bend FE encoding.
141  stubAlgo_ = dynamic_cast<const StubAlgorithmOfficial*>(&iSetup.getData(ttStubAlgoToken_));
142  // Get FE stub window size from TTStub producer configuration
143  const edm::ESHandle<StubAlgorithm> stubAlgoHandle = iSetup.getHandle(ttStubAlgoToken_);
144  const edm::ParameterSet& pSetStubAlgo = getParameterSet(stubAlgoHandle.description()->pid_);
145  stubFEWindows_ = std::make_unique<StubFEWindows>(pSetStubAlgo);
146  // Initialize utilities needing FE window size.
148  degradeBend_ = std::make_unique<DegradeBend>(trackerTopology_, stubFEWindows_.get(), stubAlgo_);
149  }
150 
151  //=== Run every event
152 
154  // Note useful info about MC truth particles and about reconstructed stubs .
155  InputData inputData(iEvent,
156  iSetup,
157  &settings_,
159  degradeBend_.get(),
163  tpToken_,
164  stubToken_,
167  genJetToken_);
168 
169  const list<TP>& vTPs = inputData.getTPs();
170  const list<Stub*>& vStubs = inputData.stubs();
171 
172  // Creates matrix of Sector objects, which decide which stubs are in which (eta,phi) sector
174  // Create matrix of r-phi Hough-Transform arrays, with one-to-one correspondence to sectors.
176  // Create matrix of Make3Dtracks objects, to run optional r-z track filter, with one-to-one correspondence to sectors.
178  // Create matrix of tracks from each fitter in each sector
180  // Final tracks after duplicate removal from each track fitter in entire tracker.
181  map<string, list<const L1fittedTrack*>> mapFinalTracks;
182 
183  //=== Initialization
184  // Create utility for converting L1 tracks from our private format to official CMSSW EDM format.
186 
187  // Pointers to TTTrack collections for ED output.
188  auto htTTTracksForOutput = std::make_unique<TTTrackCollection>();
189  auto rzTTTracksForOutput = std::make_unique<TTTrackCollection>();
190  map<string, unique_ptr<TTTrackCollection>> allFitTTTracksForOutput;
191  for (const string& fitterName : trackFitters_) {
192  auto fitTTTracksForOutput = std::make_unique<TTTrackCollection>();
193  allFitTTTracksForOutput[fitterName] = std::move(fitTTTracksForOutput);
194  }
195 
196  //=== Do tracking in the r-phi Hough transform within each sector.
197 
198  // Fill Hough-Transform arrays with stubs.
199  for (unsigned int iPhiSec = 0; iPhiSec < settings_.numPhiSectors(); iPhiSec++) {
200  for (unsigned int iEtaReg = 0; iEtaReg < settings_.numEtaRegions(); iEtaReg++) {
201  // Initialize constants for this sector.
202  mSectors(iPhiSec, iEtaReg) = std::make_unique<Sector>(&settings_, iPhiSec, iEtaReg);
203  Sector* sector = mSectors(iPhiSec, iEtaReg).get();
204 
205  mHtRphis(iPhiSec, iEtaReg) = std::make_unique<HTrphi>(
206  &settings_, iPhiSec, iEtaReg, sector->etaMin(), sector->etaMax(), sector->phiCentre(), &htRphiErrMon_);
207  HTrphi* htRphi = mHtRphis(iPhiSec, iEtaReg).get();
208 
209  // Check sector is enabled (always true, except if user disabled some for special studies).
210  if (settings_.isHTRPhiEtaRegWhitelisted(iEtaReg)) {
211  for (Stub* stub : vStubs) {
212  // Digitize stub as would be at input to GP. This doesn't need the nonant number, since we assumed an integer number of
213  // phi digitisation bins inside an nonant. N.B. This changes the coordinates & bend stored in the stub.
214 
216  stub->digitize(iPhiSec, Stub::DigiStage::GP);
217 
218  // Check if stub is inside this sector
219  bool inside = sector->inside(stub);
220 
221  if (inside) {
222  // Check which eta subsectors within the sector the stub is compatible with (if subsectors being used).
223  const vector<bool> inEtaSubSecs = sector->insideEtaSubSecs(stub);
224 
225  // Digitize stub if as would be at input to HT, which slightly degrades its coord. & bend resolution, affecting the HT performance.
227  stub->digitize(iPhiSec, Stub::DigiStage::HT);
228 
229  // Store stub in Hough transform array for this sector, indicating its compatibility with eta subsectors with sector.
230  htRphi->store(stub, inEtaSubSecs);
231  }
232  }
233  }
234 
235  // Find tracks in r-phi HT array.
236  htRphi->end(); // Calls htArrayRphi_.end() -> HTBase::end()
237  }
238  }
239 
240  if (settings_.muxOutputsHT() > 0) {
241  // Multiplex outputs of several HT onto one pair of output opto-links.
242  // This only affects tracking performance if option busySectorKill is enabled, so that tracks that
243  // can't be sent down the link within the time-multiplexed period are killed.
244  MuxHToutputs muxHT(&settings_);
245  muxHT.exec(mHtRphis);
246  }
247 
248  // Optionally, run 2nd stage mini HT -- WITHOUT TRUNCATION ???
249  if (settings_.miniHTstage()) {
250  MiniHTstage miniHTstage(&settings_);
251  miniHTstage.exec(mHtRphis);
252  }
253 
254  //=== Make 3D tracks, optionally running r-z track filters (such as Seed Filter) & duplicate track removal.
255 
256  for (unsigned int iPhiSec = 0; iPhiSec < settings_.numPhiSectors(); iPhiSec++) {
257  for (unsigned int iEtaReg = 0; iEtaReg < settings_.numEtaRegions(); iEtaReg++) {
258  const Sector* sector = mSectors(iPhiSec, iEtaReg).get();
259 
260  // Get tracks found by r-phi HT.
261  const HTrphi* htRphi = mHtRphis(iPhiSec, iEtaReg).get();
262  const list<L1track2D>& vecTracksRphi = htRphi->trackCands2D();
263 
264  // Initialize utility for making 3D tracks from 2D ones.
265  mMake3Dtrks(iPhiSec, iEtaReg) = std::make_unique<Make3Dtracks>(
266  &settings_, iPhiSec, iEtaReg, sector->etaMin(), sector->etaMax(), sector->phiCentre());
267  Make3Dtracks* make3Dtrk = mMake3Dtrks(iPhiSec, iEtaReg).get();
268 
269  // Convert 2D tracks found by HT to 3D tracks (optionally by running r-z filters & duplicate track removal)
270  make3Dtrk->run(vecTracksRphi);
271 
273  // Convert these tracks to EDM format for output (used for collaborative work outside TMTT group).
274  // Do this for tracks output by HT & optionally also for those output by r-z track filter.
275  const list<L1track3D>& vecTrk3D_ht = make3Dtrk->trackCands3D(false);
276  for (const L1track3D& trk : vecTrk3D_ht) {
277  TTTrack<Ref_Phase2TrackerDigi_> htTTTrack = converter.makeTTTrack(&trk, iPhiSec, iEtaReg);
278  htTTTracksForOutput->push_back(htTTTrack);
279  }
280 
281  if (runRZfilter_) {
282  const list<L1track3D>& vecTrk3D_rz = make3Dtrk->trackCands3D(true);
283  for (const L1track3D& trk : vecTrk3D_rz) {
284  TTTrack<Ref_Phase2TrackerDigi_> rzTTTrack = converter.makeTTTrack(&trk, iPhiSec, iEtaReg);
285  rzTTTracksForOutput->push_back(rzTTTrack);
286  }
287  }
288  }
289  }
290  }
291 
292  //=== Do a helix fit to all the track candidates.
293 
294  // Loop over all the fitting algorithms we are trying.
295  for (const string& fitterName : trackFitters_) {
296  for (unsigned int iPhiSec = 0; iPhiSec < settings_.numPhiSectors(); iPhiSec++) {
297  for (unsigned int iEtaReg = 0; iEtaReg < settings_.numEtaRegions(); iEtaReg++) {
298  const Make3Dtracks* make3Dtrk = mMake3Dtrks(iPhiSec, iEtaReg).get();
299 
300  // Does this fitter require r-z track filter to be run before it?
301  bool useRZfilt = (std::count(useRZfilter_.begin(), useRZfilter_.end(), fitterName) > 0);
302 
303  // Get 3D track candidates found by Hough transform (plus optional r-z filters/duplicate removal) in this sector.
304  const list<L1track3D>& vecTrk3D = make3Dtrk->trackCands3D(useRZfilt);
305 
306  // Find list where fitted tracks will be stored.
307  list<L1fittedTrack>& fitTrksInSec = mapmFitTrks(iPhiSec, iEtaReg)[fitterName];
308 
309  // Fit all tracks in this sector
310  for (const L1track3D& trk : vecTrk3D) {
311  // Ensure stubs assigned to this track is digitized with respect to the phi sector the track is in.
312  if (settings_.enableDigitize()) {
313  const vector<Stub*>& stubsOnTrk = trk.stubs();
314  for (Stub* s : stubsOnTrk) {
315  // Also digitize stub in way this specific track fitter uses it.
316  s->digitize(iPhiSec, Stub::DigiStage::TF);
317  }
318  }
319 
320  L1fittedTrack fitTrk = fitterWorkerMap_[fitterName]->fit(trk);
321 
322  if (fitTrk.accepted()) { // If fitter accepted track, then store it.
323  // Optionally digitize fitted track, degrading slightly resolution.
325  fitTrk.digitizeTrack(fitterName);
326  // Store fitted tracks, such that there is one fittedTracks corresponding to each HT tracks.
327  fitTrksInSec.push_back(fitTrk);
328  }
329  }
330  }
331  }
332  }
333 
334  // Run duplicate track removal on the fitted tracks if requested.
335 
336  // Initialize the duplicate track removal algorithm that can optionally be run after the track fit.
337  DupFitTrkKiller killDupFitTrks(&settings_);
338 
339  // Loop over all the fitting algorithms we used.
340  for (const string& fitterName : trackFitters_) {
341  for (unsigned int iPhiSec = 0; iPhiSec < settings_.numPhiSectors(); iPhiSec++) {
342  for (unsigned int iEtaReg = 0; iEtaReg < settings_.numEtaRegions(); iEtaReg++) {
343  // Get fitted tracks in sector
344  const list<L1fittedTrack>& fitTrksInSec = mapmFitTrks(iPhiSec, iEtaReg)[fitterName];
345 
346  // Run duplicate removal
347  list<const L1fittedTrack*> filteredFitTrksInSec = killDupFitTrks.filter(fitTrksInSec);
348 
349  // Prepare TTTrack collection.
350  for (const L1fittedTrack* fitTrk : filteredFitTrksInSec) {
351  // Convert these fitted tracks to EDM format for output (used for collaborative work outside TMTT group).
352  TTTrack<Ref_Phase2TrackerDigi_> fitTTTrack = converter.makeTTTrack(fitTrk, iPhiSec, iEtaReg);
353  allFitTTTracksForOutput[fitterName]->push_back(fitTTTrack);
354  }
355 
356  // Store fitted tracks from entire tracker.
357  mapFinalTracks[fitterName].insert(
358  mapFinalTracks[fitterName].end(), filteredFitTrksInSec.begin(), filteredFitTrksInSec.end());
359  }
360  }
361  }
362 
363  // Debug printout
364  if (debug_) {
365  PrintL1trk() << "INPUT #TPs = " << vTPs.size() << " #STUBs = " << vStubs.size();
366  unsigned int numHTtracks = 0;
367  for (unsigned int iPhiSec = 0; iPhiSec < settings_.numPhiSectors(); iPhiSec++) {
368  for (unsigned int iEtaReg = 0; iEtaReg < settings_.numEtaRegions(); iEtaReg++) {
369  const Make3Dtracks* make3Dtrk = mMake3Dtrks(iPhiSec, iEtaReg).get();
370  numHTtracks += make3Dtrk->trackCands3D(false).size();
371  }
372  }
373  PrintL1trk() << "Number of tracks after HT = " << numHTtracks;
374  for (const auto& p : mapFinalTracks) {
375  const string& fitName = p.first;
376  const list<const L1fittedTrack*> fittedTracks = p.second;
377  PrintL1trk() << "Number of tracks after " << fitName << " track helix fit = " << fittedTracks.size();
378  }
379  }
380 
381  // Allow histogramming to plot undigitized variables.
382  for (Stub* stub : vStubs) {
384  stub->setDigitizeWarningsOn(false);
385  }
386 
387  // Fill histograms to monitor input data & tracking performance.
388  hists_.fill(inputData, mSectors, mHtRphis, mMake3Dtrks, mapFinalTracks);
389 
390  //=== Store output EDM track and hardware stub collections.
392  iEvent.put(std::move(htTTTracksForOutput), "TML1TracksHT");
393  if (runRZfilter_)
394  iEvent.put(std::move(rzTTTracksForOutput), "TML1TracksRZ");
395  }
396  for (const string& fitterName : trackFitters_) {
397  string edmName = string("TML1Tracks") + fitterName;
398  iEvent.put(std::move(allFitTTTracksForOutput[fitterName]), edmName);
399  }
400  }
401 
403  const Settings& settings = globalCacheTMTT->settings();
404 
405  // Print stub window sizes that TMTT recommends CMS uses in FE chips.
406  if (settings.printStubWindows())
407  globalCacheTMTT->stubWindowSuggest().printResults();
408 
409  // Print (once) info about tracker geometry.
410  globalCacheTMTT->hists().trackerGeometryAnalysis(globalCacheTMTT->listTrackerModule());
411 
412  PrintL1trk() << "\n Number of (eta,phi) sectors used = (" << settings.numEtaRegions() << ","
413  << settings.numPhiSectors() << ")";
414 
415  // Print job summary
416  globalCacheTMTT->hists().endJobAnalysis(&(globalCacheTMTT->htRphiErrMon()));
417  }
418 
419 } // namespace tmtt
420 
tmtt::Histos::fill
virtual void fill(const InputData &inputData, const matrix< std::unique_ptr< Sector >> &mSectors, const matrix< std::unique_ptr< HTrphi >> &mHtPhis, const matrix< std::unique_ptr< Make3Dtracks >> &mGet3Dtrks, const std::map< std::string, std::list< const L1fittedTrack * >> &mapFinalTracks)
Definition: Histos.cc:83
tmtt::TMTrackProducer::stubWindowSuggest_
StubWindowSuggest & stubWindowSuggest_
Definition: TMTrackProducer.h:85
tmtt::MuxHToutputs::exec
void exec(matrix< std::unique_ptr< HTrphi >> &mHtRphis) const
Definition: MuxHToutputs.cc:57
tmtt::DupFitTrkKiller
Definition: DupFitTrkKiller.h:19
tmtt::Settings::numEtaRegions
unsigned int numEtaRegions() const
Definition: Settings.h:125
tmtt::GlobalCacheTMTT::htRphiErrMon
HTrphi::ErrorMonitor & htRphiErrMon() const
Definition: GlobalCacheTMTT.h:34
L1fittedTrack.h
Sector.h
MagneticField::inTesla
virtual GlobalVector inTesla(const GlobalPoint &gp) const =0
Field value ad specified global point, in Tesla.
tmtt::L1fittedTrack::digitizeTrack
void digitizeTrack(const std::string &fitterName)
Definition: L1fittedTrack.cc:12
tmtt::DupFitTrkKiller::filter
std::list< const L1fittedTrack * > filter(const std::list< L1fittedTrack > &vecTracks) const
Definition: DupFitTrkKiller.cc:18
tmtt::TMTrackProducer::degradeBend_
std::unique_ptr< DegradeBend > degradeBend_
Definition: TMTrackProducer.h:86
tmtt::MiniHTstage
Definition: MiniHTstage.h:13
GeomDet
Definition: GeomDet.h:27
tmtt::TMTrackProducer::genJetToken_
edm::EDGetTokenT< reco::GenJetCollection > genJetToken_
Definition: TMTrackProducer.h:69
ESHandle.h
tmtt::TMTrackProducer::stubFEWindows_
std::unique_ptr< StubFEWindows > stubFEWindows_
Definition: TMTrackProducer.h:84
TrackerTopology::isLower
bool isLower(const DetId &id) const
Definition: TrackerTopology.cc:195
tmtt::GlobalCacheTMTT::stubWindowSuggest
StubWindowSuggest & stubWindowSuggest() const
Definition: GlobalCacheTMTT.h:35
converter
Definition: CandidateProducer.h:25
tmtt::TrackerModule::ModuleTypeCfg
Definition: TrackerModule.h:29
tmtt::Settings::trackFitters
const std::vector< std::string > & trackFitters() const
Definition: Settings.h:248
edm::Run
Definition: Run.h:45
tmtt::HTrphi
Definition: HTrphi.h:23
tmtt::TMTrackProducer::useRZfilter_
std::vector< std::string > useRZfilter_
Definition: TMTrackProducer.h:79
edm
HLT enums.
Definition: AlignableModifier.h:19
tmtt::trackFitFactory::create
std::unique_ptr< TrackFitGeneric > create(const std::string &fitterName, const Settings *settings)
Definition: TrackFitFactory.cc:19
tmtt::Make3Dtracks::trackCands3D
const std::list< L1track3D > & trackCands3D(bool rzFiltered) const
Definition: Make3Dtracks.h:49
AlCaHLTBitMon_ParallelJobs.p
p
Definition: AlCaHLTBitMon_ParallelJobs.py:153
tmtt::GlobalCacheTMTT::listTrackerModule
const std::list< TrackerModule > & listTrackerModule() const
Definition: GlobalCacheTMTT.h:36
tmtt::TMTrackProducer::htRphiErrMon_
HTrphi::ErrorMonitor & htRphiErrMon_
Definition: TMTrackProducer.h:89
tmtt::TMTrackProducer::fitterWorkerMap_
std::map< std::string, std::unique_ptr< TrackFitGeneric > > fitterWorkerMap_
Definition: TMTrackProducer.h:91
tmtt::HTbase::trackCands2D
virtual const std::list< L1track2D > & trackCands2D() const
Definition: HTbase.h:73
tmtt::ConverterToTTTrack
Definition: ConverterToTTTrack.h:18
tmtt::TMTrackProducer::tpToken_
edm::EDGetTokenT< TrackingParticleCollection > tpToken_
Definition: TMTrackProducer.h:66
tmtt::Settings::enableDigitize
bool enableDigitize() const
Definition: Settings.h:80
Make3Dtracks.h
tmtt::L1fittedTrack::accepted
bool accepted() const
Definition: L1fittedTrack.h:297
TTTrack
Class to store the L1 Track Trigger tracks.
Definition: TTTrack.h:26
tmtt::GlobalCacheTMTT::hists
Histos & hists() const
Definition: GlobalCacheTMTT.h:37
tmtt::Make3Dtracks
Definition: Make3Dtracks.h:25
compare.hists
hists
Definition: compare.py:319
tmtt::Settings::trackerTopologyInputTag
edm::ESInputTag trackerTopologyInputTag() const
Definition: Settings.h:28
tmtt::TMTrackProducer::trackerGeometryToken_
edm::ESGetToken< TrackerGeometry, TrackerDigiGeometryRecord > trackerGeometryToken_
Definition: TMTrackProducer.h:61
tmtt::TMTrackProducer::produce
void produce(edm::Event &, const edm::EventSetup &) override
Definition: TMTrackProducer.cc:153
tmtt::InputData::getTPs
const std::list< TP > & getTPs() const
Definition: InputData.h:41
tmtt::Settings::miniHTstage
bool miniHTstage() const
Definition: Settings.h:149
tmtt::Settings::trackerGeometryInputTag
edm::ESInputTag trackerGeometryInputTag() const
Definition: Settings.h:27
PV3DBase::z
T z() const
Definition: PV3DBase.h:61
tmtt::TMTrackProducer::trackerTopology_
const TrackerTopology * trackerTopology_
Definition: TMTrackProducer.h:73
MessageLogger.h
tmtt::Settings::genJetInputTag
edm::InputTag genJetInputTag() const
Definition: Settings.h:35
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Definition: DetId.h:17
tmtt::TMTrackProducer
Definition: TMTrackProducer.h:42
alignCSCRings.s
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Definition: alignCSCRings.py:92
tmtt::TMTrackProducer::globalEndJob
static void globalEndJob(GlobalCacheTMTT *globalCacheTMTT)
Definition: TMTrackProducer.cc:402
DEFINE_FWK_MODULE
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:16
HTrphi.h
tmtt::TMTrackProducer::runRZfilter_
bool runRZfilter_
Definition: TMTrackProducer.h:80
tmtt::TrackerModule::ModuleTypeCfg::tiltedVsType
std::vector< bool > tiltedVsType
Definition: TrackerModule.h:34
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Definition: HTbase.h:15
tmtt::TMTrackProducer::trackFitters_
std::vector< std::string > trackFitters_
Definition: TMTrackProducer.h:78
tmtt::Sector::insideEtaSubSecs
std::vector< bool > insideEtaSubSecs(const Stub *stub) const
Definition: Sector.cc:71
tmtt::Settings::useRZfilter
const std::vector< std::string > & useRZfilter() const
Definition: Settings.h:251
tmtt::TMTrackProducer::settings_
Settings settings_
Definition: TMTrackProducer.h:77
tmtt::TMTrackProducer::trackerGeometry_
const TrackerGeometry * trackerGeometry_
Definition: TMTrackProducer.h:72
mps_fire.end
end
Definition: mps_fire.py:242
MuxHToutputs.h
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Definition: TMTrackProducer.h:68
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Definition: TMTrackProducer.h:67
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Definition: MiniHTstage.cc:45
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Definition: Settings.h:98
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Definition: GlobalPoint.h:10
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Definition: Sector.h:14
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Definition: PrintL1trk.h:12
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Definition: MuxHToutputs.h:26
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Definition: DetId.h:48
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Definition: AlCaHLTBitMon_QueryRunRegistry.py:256
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Definition: L1fittedTrack.h:30
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Definition: TMTrackProducer.h:88
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Definition: Settings.h:40
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Definition: Sector.h:31
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Definition: Settings.h:33
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Definition: Histos.cc:1705
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Definition: StubWindowSuggest.cc:18
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Definition: ParameterSet.cc:862
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Definition: TMTrackProducer_cff.py:20
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Definition: Sector.h:30
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Definition: StripSubdetector.h:18
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Definition: TrackerModule.h:33
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Definition: TMTrackProducer.cc:97
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Definition: Make3Dtracks.h:38
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Definition: Settings.h:189
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Definition: TMTrackProducer.h:83
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Definition: Settings.h:32
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Definition: runonSM.py:43
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Definition: InputData.h:21
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Definition: Settings.h:31
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Definition: TMTrackProducer.h:74
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Definition: Event.h:73
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Definition: StubWindowSuggest.cc:63
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Definition: Settings.h:29
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Definition: submitPVValidationJobs.py:644
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Definition: MagneticField.h:19
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Definition: L1track3D.h:24
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Definition: Settings.h:398
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Definition: Settings.h:44
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Definition: Histos.cc:1563
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Definition: Settings.h:99
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=== This is the base class for the linearised chi-squared track fit algorithms.
Definition: ChiSquaredFit4.h:6
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Definition: GlobalCacheTMTT.h:33
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Definition: Settings.h:95
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Definition: TrackerModule.h:32
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Definition: TMTrackProducer.h:65
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Definition: StripSubdetector.h:17
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Definition: Settings.h:34
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Definition: Settings.cc:463
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Definition: TrackerModule.h:30