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L1TCaloLayer1.cc
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1 // -*- C++ -*-
2 //
3 // Package: L1Trigger/L1TCaloLayer1
4 // Class: L1TCaloLayer1
5 //
13 //
14 // Original Author: Sridhara Rao Dasu
15 // Created: Thu, 08 Oct 2015 09:20:16 GMT
16 //
17 //
18 
19 // system include files
20 #include <memory>
21 
22 // user include files
25 
28 
30 
33 
34 #include "L1Trigger/L1TCaloLayer1/src/UCTLayer1.hh"
35 #include "L1Trigger/L1TCaloLayer1/src/UCTCrate.hh"
36 #include "L1Trigger/L1TCaloLayer1/src/UCTCard.hh"
37 #include "L1Trigger/L1TCaloLayer1/src/UCTRegion.hh"
38 #include "L1Trigger/L1TCaloLayer1/src/UCTTower.hh"
39 
40 #include "L1Trigger/L1TCaloLayer1/src/UCTGeometry.hh"
41 #include "L1Trigger/L1TCaloLayer1/src/UCTLogging.hh"
42 
46 
48 
49 #include "L1Trigger/L1TCaloLayer1/src/L1TCaloLayer1FetchLUTs.hh"
50 
51 using namespace l1t;
52 using namespace l1tcalo;
53 
54 //
55 // class declaration
56 //
57 
59 public:
60  explicit L1TCaloLayer1(const edm::ParameterSet&);
61 
62  static void fillDescriptions(edm::ConfigurationDescriptions& descriptions);
63 
64 private:
65  void produce(edm::Event&, const edm::EventSetup&) override;
66 
67  void beginRun(edm::Run const&, edm::EventSetup const&) override;
68 
69  //virtual void endRun(edm::Run const&, edm::EventSetup const&) override;
70  //virtual void beginLuminosityBlock(edm::LuminosityBlock const&, edm::EventSetup const&) override;
71  //virtual void endLuminosityBlock(edm::LuminosityBlock const&, edm::EventSetup const&) override;
72 
73  // ----------member data ---------------------------
74 
79 
80  std::vector<std::array<std::array<std::array<uint32_t, nEtBins>, nCalSideBins>, nCalEtaBins> > ecalLUT;
81  std::vector<std::array<std::array<std::array<uint32_t, nEtBins>, nCalSideBins>, nCalEtaBins> > hcalLUT;
82  std::vector<std::array<std::array<uint32_t, nEtBins>, nHfEtaBins> > hfLUT;
83 
84  std::vector<unsigned int> ePhiMap;
85  std::vector<unsigned int> hPhiMap;
86  std::vector<unsigned int> hfPhiMap;
87 
88  std::vector<UCTTower*> twrList;
89 
90  bool useLSB;
91  bool useCalib;
92  bool useECALLUT;
93  bool useHCALLUT;
94  bool useHFLUT;
95  bool verbose;
98  int fwVersion;
99 
100  std::unique_ptr<UCTLayer1> layer1;
101 };
102 
103 //
104 // constants, enums and typedefs
105 //
106 
107 //
108 // static data member definitions
109 //
110 
111 //
112 // constructors and destructor
113 //
115  : ecalTPSource(consumes<EcalTrigPrimDigiCollection>(iConfig.getParameter<edm::InputTag>("ecalToken"))),
116  hcalTPSource(consumes<HcalTrigPrimDigiCollection>(iConfig.getParameter<edm::InputTag>("hcalToken"))),
117  towerPutToken{produces<CaloTowerBxCollection>()},
118  regionPutToken{produces<L1CaloRegionCollection>()},
119  ePhiMap(72 * 2, 0),
120  hPhiMap(72 * 2, 0),
121  hfPhiMap(72 * 2, 0),
122  useLSB(iConfig.getParameter<bool>("useLSB")),
123  useCalib(iConfig.getParameter<bool>("useCalib")),
124  useECALLUT(iConfig.getParameter<bool>("useECALLUT")),
125  useHCALLUT(iConfig.getParameter<bool>("useHCALLUT")),
126  useHFLUT(iConfig.getParameter<bool>("useHFLUT")),
127  verbose(iConfig.getParameter<bool>("verbose")),
128  unpackHcalMask(iConfig.getParameter<bool>("unpackHcalMask")),
129  unpackEcalMask(iConfig.getParameter<bool>("unpackEcalMask")),
130  fwVersion(iConfig.getParameter<int>("firmwareVersion")) {
131  // See UCTLayer1.hh for firmware version definitions
132  layer1 = std::make_unique<UCTLayer1>(fwVersion);
133 
134  vector<UCTCrate*> crates = layer1->getCrates();
135  for (uint32_t crt = 0; crt < crates.size(); crt++) {
136  vector<UCTCard*> cards = crates[crt]->getCards();
137  for (uint32_t crd = 0; crd < cards.size(); crd++) {
138  vector<UCTRegion*> regions = cards[crd]->getRegions();
139  for (uint32_t rgn = 0; rgn < regions.size(); rgn++) {
140  vector<UCTTower*> towers = regions[rgn]->getTowers();
141  for (uint32_t twr = 0; twr < towers.size(); twr++) {
142  twrList.push_back(towers[twr]);
143  }
144  }
145  }
146  }
147 
148  // This sort corresponds to the sort condition on
149  // the output CaloTowerBxCollection
150  std::sort(twrList.begin(), twrList.end(), [](UCTTower* a, UCTTower* b) {
151  return CaloTools::caloTowerHash(a->caloEta(), a->caloPhi()) < CaloTools::caloTowerHash(b->caloEta(), b->caloPhi());
152  });
153 }
154 
155 //
156 // member functions
157 //
158 
159 // ------------ method called to produce the data ------------
161  using namespace edm;
162 
164  iEvent.getByToken(ecalTPSource, ecalTPs);
166  iEvent.getByToken(hcalTPSource, hcalTPs);
167 
168  CaloTowerBxCollection towersColl;
169  L1CaloRegionCollection rgnCollection;
170 
171  uint32_t expectedTotalET = 0;
172  if (!layer1->clearEvent()) {
173  LOG_ERROR << "UCT: Failed to clear event" << std::endl;
174  return;
175  }
176 
177  for (const auto& ecalTp : *ecalTPs) {
178  if (unpackEcalMask && ((ecalTp.sample(0).raw() >> 13) & 0x1))
179  continue;
180  int caloEta = ecalTp.id().ieta();
181  int caloPhi = ecalTp.id().iphi();
182  int et = ecalTp.compressedEt();
183  bool fgVeto = ecalTp.fineGrain();
184  UCTTowerIndex t = UCTTowerIndex(caloEta, caloPhi);
185  if (!layer1->setECALData(t, fgVeto, et)) {
186  LOG_ERROR << "UCT: Failed loading an ECAL tower" << std::endl;
187  return;
188  }
189  expectedTotalET += et;
190  }
191 
192  if (hcalTPs.isValid()) {
193  for (const auto& hcalTp : *hcalTPs) {
194  if (unpackHcalMask && ((hcalTp.sample(0).raw() >> 13) & 0x1))
195  continue;
196  int caloEta = hcalTp.id().ieta();
197  uint32_t absCaloEta = std::abs(caloEta);
198  // Tower 29 is not used by Layer-1
199  if (absCaloEta == 29) {
200  continue;
201  }
202  // Prevent usage of HF TPs with Layer-1 emulator if HCAL TPs are old style
203  else if (hcalTp.id().version() == 0 && absCaloEta > 29) {
204  continue;
205  } else if (absCaloEta <= 41) {
206  int caloPhi = hcalTp.id().iphi();
207  int et = hcalTp.SOI_compressedEt();
208  bool fg = hcalTp.t0().fineGrain(0);
209  bool fg2 = hcalTp.t0().fineGrain(1);
210  if (caloPhi <= 72) {
211  UCTTowerIndex t = UCTTowerIndex(caloEta, caloPhi);
212  uint32_t featureBits = 0;
213  if (fg)
214  featureBits |= 0b01;
215  // fg2 should only be set for HF
216  if (absCaloEta > 29 && fg2)
217  featureBits |= 0b10;
218  if (!layer1->setHCALData(t, featureBits, et)) {
219  LOG_ERROR << "caloEta = " << caloEta << "; caloPhi =" << caloPhi << std::endl;
220  LOG_ERROR << "UCT: Failed loading an HCAL tower" << std::endl;
221  return;
222  }
223  expectedTotalET += et;
224  } else {
225  LOG_ERROR << "Illegal Tower: caloEta = " << caloEta << "; caloPhi =" << caloPhi << "; et = " << et
226  << std::endl;
227  }
228  } else {
229  LOG_ERROR << "Illegal Tower: caloEta = " << caloEta << std::endl;
230  }
231  }
232  }
233 
234  //Process
235  if (!layer1->process()) {
236  LOG_ERROR << "UCT: Failed to process layer 1" << std::endl;
237  }
238 
239  int theBX = 0; // Currently we only read and process the "hit" BX only
240 
241  for (uint32_t twr = 0; twr < twrList.size(); twr++) {
242  CaloTower caloTower;
243  caloTower.setHwPt(twrList[twr]->et()); // Bits 0-8 of the 16-bit word per the interface protocol document
244  caloTower.setHwEtRatio(twrList[twr]->er()); // Bits 9-11 of the 16-bit word per the interface protocol document
245  caloTower.setHwQual(twrList[twr]->miscBits()); // Bits 12-15 of the 16-bit word per the interface protocol document
246  caloTower.setHwEta(twrList[twr]->caloEta()); // caloEta = 1-28 and 30-41
247  caloTower.setHwPhi(twrList[twr]->caloPhi()); // caloPhi = 1-72
248  caloTower.setHwEtEm(twrList[twr]->getEcalET()); // This is provided as a courtesy - not available to hardware
249  caloTower.setHwEtHad(twrList[twr]->getHcalET()); // This is provided as a courtesy - not available to hardware
250  towersColl.push_back(theBX, caloTower);
251  }
252 
253  iEvent.emplace(towerPutToken, std::move(towersColl));
254 
255  UCTGeometry g;
256  vector<UCTCrate*> crates = layer1->getCrates();
257  for (uint32_t crt = 0; crt < crates.size(); crt++) {
258  vector<UCTCard*> cards = crates[crt]->getCards();
259  for (uint32_t crd = 0; crd < cards.size(); crd++) {
260  vector<UCTRegion*> regions = cards[crd]->getRegions();
261  for (uint32_t rgn = 0; rgn < regions.size(); rgn++) {
262  uint32_t rawData = regions[rgn]->rawData();
263  uint32_t regionData = rawData & 0x0000FFFF;
264  uint32_t crate = regions[rgn]->getCrate();
265  uint32_t card = regions[rgn]->getCard();
266  uint32_t region = regions[rgn]->getRegion();
267  bool negativeEta = regions[rgn]->isNegativeEta();
268  uint32_t rPhi = g.getUCTRegionPhiIndex(crate, card);
269  if (region < NRegionsInCard) { // We only store the Barrel and Endcap - HF has changed in the upgrade
270  uint32_t rEta =
271  10 -
272  region; // UCT region is 0-6 for B/E but GCT eta goes 0-21, 0-3 -HF, 4-10 -B/E, 11-17 +B/E, 18-21 +HF
273  if (!negativeEta)
274  rEta = 11 + region; // Positive eta portion is offset by 11
275  rgnCollection.push_back(L1CaloRegion((uint16_t)regionData, (unsigned)rEta, (unsigned)rPhi, (int16_t)0));
276  }
277  }
278  }
279  }
280  iEvent.emplace(regionPutToken, std::move(rgnCollection));
281 }
282 
283 // ------------ method called when starting to processes a run ------------
284 void L1TCaloLayer1::beginRun(const edm::Run& iRun, const edm::EventSetup& iSetup) {
285  if (!L1TCaloLayer1FetchLUTs(iSetup,
286  ecalLUT,
287  hcalLUT,
288  hfLUT,
289  ePhiMap,
290  hPhiMap,
291  hfPhiMap,
292  useLSB,
293  useCalib,
294  useECALLUT,
295  useHCALLUT,
296  useHFLUT,
297  fwVersion)) {
298  LOG_ERROR << "L1TCaloLayer1::beginRun: failed to fetch LUTS - using unity" << std::endl;
299  std::array<std::array<std::array<uint32_t, nEtBins>, nCalSideBins>, nCalEtaBins> eCalLayer1EtaSideEtArray;
300  std::array<std::array<std::array<uint32_t, nEtBins>, nCalSideBins>, nCalEtaBins> hCalLayer1EtaSideEtArray;
301  std::array<std::array<uint32_t, nEtBins>, nHfEtaBins> hfLayer1EtaEtArray;
302  ecalLUT.push_back(eCalLayer1EtaSideEtArray);
303  hcalLUT.push_back(hCalLayer1EtaSideEtArray);
304  hfLUT.push_back(hfLayer1EtaEtArray);
305  }
306  for (uint32_t twr = 0; twr < twrList.size(); twr++) {
307  // Map goes minus 1 .. 72 plus 1 .. 72 -> 0 .. 143
308  int iphi = twrList[twr]->caloPhi();
309  int ieta = twrList[twr]->caloEta();
310  if (ieta < 0) {
311  iphi -= 1;
312  } else {
313  iphi += 71;
314  }
315  twrList[twr]->setECALLUT(&ecalLUT[ePhiMap[iphi]]);
316  twrList[twr]->setHCALLUT(&hcalLUT[hPhiMap[iphi]]);
317  twrList[twr]->setHFLUT(&hfLUT[hfPhiMap[iphi]]);
318  }
319 }
320 
321 // ------------ method called when ending the processing of a run ------------
322 /*
323  void
324  L1TCaloLayer1::endRun(edm::Run const&, edm::EventSetup const&)
325  {
326  }
327 */
328 
329 // ------------ method called when starting to processes a luminosity block ------------
330 /*
331  void
332  L1TCaloLayer1::beginLuminosityBlock(edm::LuminosityBlock const&, edm::EventSetup const&)
333  {
334  }
335 */
336 
337 // ------------ method called when ending the processing of a luminosity block ------------
338 /*
339  void
340  L1TCaloLayer1::endLuminosityBlock(edm::LuminosityBlock const&, edm::EventSetup const&)
341  {
342  }
343 */
344 
345 // ------------ method fills 'descriptions' with the allowed parameters for the module ------------
347  //The following says we do not know what parameters are allowed so do no validation
348  // Please change this to state exactly what you do use, even if it is no parameters
350  desc.setUnknown();
351  descriptions.addDefault(desc);
352 }
353 
354 //define this as a plug-in
356 /* vim: set ts=8 sw=2 tw=0 et :*/
amcDumpToRaw_cfi.fwVersion
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Definition: amcDumpToRaw_cfi.py:11
L1TCaloLayer1::hfPhiMap
std::vector< unsigned int > hfPhiMap
Definition: L1TCaloLayer1.cc:86
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L1TCaloLayer1::useECALLUT
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Definition: L1TCaloLayer1.cc:92
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Definition: L1TCaloLayer1.cc:76
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Definition: L1CaloRegion.h:21
L1TCaloLayer1::unpackHcalMask
bool unpackHcalMask
Definition: L1TCaloLayer1.cc:96
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Definition: L1TCaloLayer1.cc:98
L1TCaloLayer1::ecalLUT
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Definition: L1TCaloLayer1.cc:80
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Definition: Run.h:45
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Definition: EDGetToken.h:33
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Definition: L1TCaloLayer1.cc:97
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