10 #include "UCTSummaryCard.hh" 11 #include "UCTObject.hh" 12 #include "UCTLayer1.hh" 13 #include "UCTCrate.hh" 15 #include "UCTRegion.hh" 16 #include "UCTGeometry.hh" 17 #include "UCTLogging.hh" 25 double tauIsolationFactorIn,
26 uint32_t eGammaSeedIn,
27 double eGammaIsolationFactorIn)
37 for (
int iPhi = 1; iPhi <= 72; iPhi++) {
43 UCTSummaryCard::~UCTSummaryCard() {
44 for (uint32_t
i = 0;
i <
regions.size();
i++) {
59 int etaMin = -NRegionsInCard;
60 int etaMax = NRegionsInCard;
66 for (uint32_t iPhi = 0; iPhi < MaxUCTRegionsPhi; iPhi++) {
68 uint32_t
et = uctRegion->et();
73 uint32_t totalRegionCount = 2 *
etaMax * MaxUCTRegionsPhi;
74 uint32_t pumBinSize = totalRegionCount / pumLUT->size();
75 pumBin = floor(pumLevel / pumBinSize);
76 if (pumBin >= pumLUT->size())
77 pumBin = pumLUT->size() - 1;
89 for (uint32_t card = 0; card <
g.getNCards(); card++) {
92 uint32_t iPhi =
g.getUCTRegionPhiIndex(
crate, card);
93 UCTRegionIndex regionIndex(
iEta, iPhi);
94 processRegion(regionIndex);
96 if (uctRegion ==
nullptr) {
100 uint32_t pileupInRegion = (*pumLUT)[pumBin][
side][
region];
102 if (pileupInRegion <
et)
103 et -= pileupInRegion;
106 UCTTowerIndex hitTower =
g.getUCTTowerIndexFromL1CaloRegion(regionIndex, uctRegion->rawData());
107 int hitCaloPhi = hitTower.second;
108 sumEx += ((
int)(((
double)
et) *
cosPhi[hitCaloPhi]));
109 sumEy += ((
int)(((
double)
et) *
sinPhi[hitCaloPhi]));
112 sumHx += ((
int)(((
double)
et) *
cosPhi[hitCaloPhi]));
113 sumHy += ((
int)(((
double)
et) *
sinPhi[hitCaloPhi]));
120 uint32_t metSquare = sumEx * sumEx + sumEy * sumEy;
121 uint32_t metValue =
sqrt((
double)metSquare);
122 double metPhi = (atan2(sumEy, sumEx) * 180. / 3.1415927) + 180.;
123 int metIPhi = (
int)(72. * (metPhi / 360.));
124 uint32_t mhtSquare = sumHx * sumHx + sumHy * sumHy;
125 uint32_t mhtValue =
sqrt((
double)mhtSquare);
126 double mhtPhi = (atan2(sumHy, sumHx) * 180. / 3.1415927) + 180.;
127 int mhtIPhi = (
int)(72. * (mhtPhi / 360.));
139 centralJetObjs.sort();
140 forwardJetObjs.sort();
141 boostedJetObjs.sort();
146 bool UCTSummaryCard::processRegion(UCTRegionIndex center) {
151 std::vector<uint32_t> boostedJetTowers;
152 boostedJetTowers.clear();
153 for (
size_t iPhi = 0; iPhi < 12; iPhi++) {
155 boostedJetTowers.push_back(0);
159 std::vector<uint32_t> boostedJetRegionET, boostedJetRegionTauVeto;
160 boostedJetRegionET.clear();
161 boostedJetRegionTauVeto.clear();
162 for (
size_t i = 0;
i < 9;
i++) {
163 boostedJetRegionET.push_back(0);
164 boostedJetRegionTauVeto.push_back(0);
167 UCTGeometryExtended
g;
169 const UCTRegion* cRegion =
getRegion(center.first, center.second);
170 if (cRegion ==
nullptr) {
175 bool centralRegion =
false;
176 if (cRegion->getRegion() < (NRegionsInCard - 1))
177 centralRegion =
true;
179 uint32_t centralET = cRegion->et();
180 uint32_t centralPU =
std::min(centralET, (*pumLUT)[pumBin][0][cRegion->getRegion()]);
181 if (!cRegion->isNegativeEta())
182 centralPU =
std::min(centralET, (*pumLUT)[pumBin][1][cRegion->getRegion()]);
183 centralET -= centralPU;
184 UCTTowerIndex centralHitTower =
g.getUCTTowerIndexFromL1CaloRegion(center, cRegion->rawData());
186 bool centralIsTauLike = cRegion->isTauLike();
187 if (cRegion->isTauLike())
189 bool centralIsEGammaLike = cRegion->isEGammaLike();
190 int hitCaloEta = centralHitTower.first;
191 int hitCaloPhi = centralHitTower.second;
193 boostedJetRegionET[4] = centralET;
194 boostedJetRegionTauVeto[4] = cRegion->isTauLike();
196 UCTRegionIndex northIndex =
g.getUCTRegionNorth(center);
197 const UCTRegion* northRegion =
getRegion(northIndex.first, northIndex.second);
198 uint32_t northET = 0;
199 uint32_t northPU = 0;
200 UCTTowerIndex northHitTower;
201 bool northIsTauLike =
false;
202 bool northIsEGammaLike =
false;
203 if (northRegion !=
nullptr) {
204 northET = northRegion->et();
205 northPU =
std::min(northET, (*pumLUT)[pumBin][0][northRegion->getRegion()]);
206 if (!northRegion->isNegativeEta())
207 northPU =
std::min(northET, (*pumLUT)[pumBin][1][northRegion->getRegion()]);
209 northHitTower =
g.getUCTTowerIndexFromL1CaloRegion(northIndex, northRegion->rawData());
210 northIsTauLike = northRegion->isTauLike();
211 if (northRegion->isTauLike())
213 northIsEGammaLike = northRegion->isEGammaLike();
214 boostedJetRegionET[3] = northET;
215 boostedJetRegionTauVeto[3] = northRegion->isTauLike();
218 UCTRegionIndex southIndex =
g.getUCTRegionSouth(center);
219 const UCTRegion* southRegion =
getRegion(southIndex.first, southIndex.second);
220 uint32_t southET = 0;
221 uint32_t southPU = 0;
222 UCTTowerIndex southHitTower;
223 bool southIsTauLike =
false;
224 bool southIsEGammaLike =
false;
225 if (southRegion !=
nullptr) {
226 southET = southRegion->et();
227 southPU =
std::min(southET, (*pumLUT)[pumBin][0][southRegion->getRegion()]);
228 if (!southRegion->isNegativeEta())
229 southPU =
std::min(southET, (*pumLUT)[pumBin][1][southRegion->getRegion()]);
231 southHitTower =
g.getUCTTowerIndexFromL1CaloRegion(southIndex, southRegion->rawData());
232 southIsTauLike = southRegion->isTauLike();
233 if (southRegion->isTauLike())
235 southIsEGammaLike = southRegion->isEGammaLike();
236 boostedJetRegionET[5] = southET;
237 boostedJetRegionTauVeto[5] = southRegion->isTauLike();
240 UCTRegionIndex westIndex =
g.getUCTRegionWest(center);
241 const UCTRegion* westRegion =
getRegion(westIndex.first, westIndex.second);
244 UCTTowerIndex westHitTower;
245 bool westIsTauLike =
false;
246 bool westIsEGammaLike =
false;
247 if (westRegion !=
nullptr) {
248 westET = westRegion->et();
249 westPU =
std::min(westET, (*pumLUT)[pumBin][0][westRegion->getRegion()]);
250 if (!westRegion->isNegativeEta())
251 westPU =
std::min(westET, (*pumLUT)[pumBin][1][westRegion->getRegion()]);
253 westHitTower =
g.getUCTTowerIndexFromL1CaloRegion(westIndex, westRegion->rawData());
254 westIsTauLike = westRegion->isTauLike();
255 if (westRegion->isTauLike())
257 westIsEGammaLike = westRegion->isEGammaLike();
258 boostedJetRegionET[7] = westET;
259 boostedJetRegionTauVeto[7] = westRegion->isTauLike();
262 UCTRegionIndex eastIndex =
g.getUCTRegionEast(center);
263 const UCTRegion* eastRegion =
getRegion(eastIndex.first, eastIndex.second);
266 UCTTowerIndex eastHitTower;
267 bool eastIsTauLike =
false;
268 bool eastIsEGammaLike =
false;
269 if (eastRegion !=
nullptr) {
270 eastET = eastRegion->et();
271 eastPU =
std::min(eastET, (*pumLUT)[pumBin][0][eastRegion->getRegion()]);
272 if (!eastRegion->isNegativeEta())
273 eastPU =
std::min(eastET, (*pumLUT)[pumBin][1][eastRegion->getRegion()]);
275 eastHitTower =
g.getUCTTowerIndexFromL1CaloRegion(eastIndex, eastRegion->rawData());
276 eastIsTauLike = eastRegion->isTauLike();
277 if (eastRegion->isTauLike())
279 eastIsEGammaLike = eastRegion->isEGammaLike();
280 boostedJetRegionET[1] = eastET;
281 boostedJetRegionTauVeto[1] = eastRegion->isTauLike();
284 UCTRegionIndex nwIndex =
g.getUCTRegionNW(center);
285 const UCTRegion* nwRegion =
getRegion(nwIndex.first, nwIndex.second);
288 UCTTowerIndex nwHitTower;
289 if (nwRegion !=
nullptr) {
290 if (nwRegion->isTauLike())
292 nwET = nwRegion->et();
293 nwPU =
std::min(nwET, (*pumLUT)[pumBin][0][nwRegion->getRegion()]);
294 if (!nwRegion->isNegativeEta())
295 nwPU =
std::min(nwET, (*pumLUT)[pumBin][1][nwRegion->getRegion()]);
297 nwHitTower =
g.getUCTTowerIndexFromL1CaloRegion(nwIndex, nwRegion->rawData());
298 boostedJetRegionET[6] = nwET;
299 boostedJetRegionTauVeto[6] = nwRegion->isTauLike();
302 UCTRegionIndex neIndex =
g.getUCTRegionNE(center);
303 const UCTRegion* neRegion =
getRegion(neIndex.first, neIndex.second);
306 UCTTowerIndex neHitTower;
307 if (neRegion !=
nullptr) {
308 if (neRegion->isTauLike())
310 neET = neRegion->et();
311 nePU =
std::min(neET, (*pumLUT)[pumBin][0][neRegion->getRegion()]);
312 if (!neRegion->isNegativeEta())
313 nePU =
std::min(neET, (*pumLUT)[pumBin][1][neRegion->getRegion()]);
315 neHitTower =
g.getUCTTowerIndexFromL1CaloRegion(neIndex, neRegion->rawData());
316 boostedJetRegionET[0] = neET;
317 boostedJetRegionTauVeto[0] = neRegion->isTauLike();
320 UCTRegionIndex swIndex =
g.getUCTRegionSW(center);
321 const UCTRegion* swRegion =
getRegion(swIndex.first, swIndex.second);
324 UCTTowerIndex swHitTower;
325 if (swRegion !=
nullptr) {
326 if (swRegion->isTauLike())
328 swET = swRegion->et();
329 swPU =
std::min(swET, (*pumLUT)[pumBin][0][swRegion->getRegion()]);
330 if (!swRegion->isNegativeEta())
331 swPU =
std::min(swET, (*pumLUT)[pumBin][1][swRegion->getRegion()]);
333 swHitTower =
g.getUCTTowerIndexFromL1CaloRegion(swIndex, swRegion->rawData());
334 boostedJetRegionET[8] = swET;
335 boostedJetRegionTauVeto[8] = swRegion->isTauLike();
338 UCTRegionIndex seIndex =
g.getUCTRegionSE(center);
339 const UCTRegion* seRegion =
getRegion(seIndex.first, seIndex.second);
342 UCTTowerIndex seHitTower;
343 if (seRegion !=
nullptr) {
344 if (seRegion->isTauLike())
346 seET = seRegion->et();
347 sePU =
std::min(seET, (*pumLUT)[pumBin][0][seRegion->getRegion()]);
348 if (!seRegion->isNegativeEta())
349 sePU =
std::min(seET, (*pumLUT)[pumBin][1][seRegion->getRegion()]);
351 seHitTower =
g.getUCTTowerIndexFromL1CaloRegion(seIndex, seRegion->rawData());
352 boostedJetRegionET[2] = seET;
353 boostedJetRegionTauVeto[2] = seRegion->isTauLike();
356 uint32_t et3x3 = centralET + northET + nwET + westET + swET + southET + seET + eastET + neET;
360 uint32_t pu3x3 = centralPU + northPU + nwPU + westPU + swPU + southPU + sePU + eastPU + nePU;
363 uint32_t jetET = et3x3;
365 if (centralET >= northET && centralET >= nwET && centralET >= westET && centralET >= swET && centralET > southET &&
366 centralET > seET && centralET > eastET && centralET > neET && centralET >
jetSeed) {
368 centralJetObjs.push_back(
new UCTObject(
UCTObject::jet, jetET, hitCaloEta, hitCaloPhi, pu3x3, 0, et3x3));
370 forwardJetObjs.push_back(
new UCTObject(
UCTObject::jet, jetET, hitCaloEta, hitCaloPhi, pu3x3, 0, et3x3));
373 auto boostedJet =
new UCTObject(
UCTObject::jet, jetET, hitCaloEta, hitCaloPhi, pu3x3, 0, et3x3);
374 boostedJet->setNTaus(nTauLike);
375 boostedJet->setBoostedJetRegionET(boostedJetRegionET);
376 boostedJet->setBoostedJetRegionTauVeto(boostedJetRegionTauVeto);
377 boostedJetObjs.push_back(boostedJet);
381 if (centralRegion && centralIsTauLike && centralET >
tauSeed) {
382 uint32_t tauET = centralET;
383 uint32_t tauPU = centralPU;
384 int neighborMatchCount = 0;
386 if (!
g.isEdgeTower(centralHitTower)) {
389 if (
g.areNeighbors(centralHitTower, northHitTower) && northIsTauLike && centralET >= northET) {
392 neighborMatchCount++;
393 }
else if (
g.areNeighbors(centralHitTower, northHitTower) && northIsTauLike && centralET < northET) {
396 if (
g.areNeighbors(centralHitTower, southHitTower) && southIsTauLike && centralET > southET) {
399 neighborMatchCount++;
400 }
else if (
g.areNeighbors(centralHitTower, southHitTower) && southIsTauLike && centralET <= southET) {
403 if (
g.areNeighbors(centralHitTower, westHitTower) && westIsTauLike && centralET >= westET) {
406 neighborMatchCount++;
407 }
else if (
g.areNeighbors(centralHitTower, westHitTower) && westIsTauLike && centralET < westET) {
410 if (
g.areNeighbors(centralHitTower, eastHitTower) && eastIsTauLike && centralET > eastET) {
413 neighborMatchCount++;
414 }
else if (
g.areNeighbors(centralHitTower, eastHitTower) && eastIsTauLike && centralET <= eastET) {
417 if (neighborMatchCount > 2) {
422 tauObjs.push_back(
new UCTObject(
UCTObject::tau, tauET, hitCaloEta, hitCaloPhi, tauPU, 0xDEADBEEF, et3x3));
428 isoTauObjs.push_back(
new UCTObject(UCTObject::isoTau, tauET, hitCaloEta, hitCaloPhi, pu3x3,
isolation, et3x3));
439 if (centralRegion && centralIsEGammaLike && centralET >
eGammaSeed) {
440 uint32_t eGammaET = centralET;
441 uint32_t eGammaPU = centralPU;
442 int neighborMatchCount = 0;
443 if (!
g.isEdgeTower(centralHitTower)) {
444 if (
g.areNeighbors(centralHitTower, northHitTower) && northIsEGammaLike && centralET >= northET) {
447 neighborMatchCount++;
448 }
else if (
g.areNeighbors(centralHitTower, northHitTower) && northIsEGammaLike && centralET < northET) {
451 if (
g.areNeighbors(centralHitTower, southHitTower) && southIsEGammaLike && centralET > southET) {
454 neighborMatchCount++;
455 }
else if (
g.areNeighbors(centralHitTower, southHitTower) && southIsEGammaLike && centralET <= southET) {
458 if (
g.areNeighbors(centralHitTower, westHitTower) && westIsEGammaLike && centralET >= westET) {
461 neighborMatchCount++;
462 }
else if (
g.areNeighbors(centralHitTower, westHitTower) && westIsEGammaLike && centralET < westET) {
465 if (
g.areNeighbors(centralHitTower, eastHitTower) && eastIsEGammaLike && centralET > eastET) {
468 neighborMatchCount++;
469 }
else if (
g.areNeighbors(centralHitTower, eastHitTower) && eastIsEGammaLike && centralET <= eastET) {
472 if (neighborMatchCount > 2) {
477 emObjs.push_back(
new UCTObject(UCTObject::eGamma, eGammaET, hitCaloEta, hitCaloPhi, eGammaPU, 0xDEADBEEF, et3x3));
479 if (et3x3 > eGammaET)
483 new UCTObject(UCTObject::isoEGamma, eGammaET, hitCaloEta, hitCaloPhi, pu3x3,
isolation, et3x3));
491 bool UCTSummaryCard::clearEvent() {
496 centralJetObjs.clear();
497 forwardJetObjs.clear();
498 boostedJetObjs.clear();
502 bool UCTSummaryCard::clearRegions() {
508 if (regionEtaIndex == 0 || (uint32_t)
std::abs(regionEtaIndex) > NRegionsInCard ||
509 regionPhiIndex >= MaxUCTRegionsPhi) {
513 UCTRegionIndex
r = UCTRegionIndex(regionEtaIndex, regionPhiIndex);
514 UCTTowerIndex
t =
g.getUCTTowerIndex(
r);
516 uint32_t absCaloPhi =
std::abs(
t.second);
517 bool negativeEta =
false;
520 uint32_t nCrate =
g.getCrate(absCaloEta, absCaloPhi);
521 uint32_t nCard =
g.getCard(absCaloEta, absCaloPhi);
522 uint32_t nRegion =
g.getRegion(absCaloEta, absCaloPhi);
523 uint32_t
i = ((NCardsInCrate * NRegionsInCard * nCrate) + (NRegionsInCard * nCard) + nRegion) *
528 edm::LogError(
"L1TCaloSummary") <<
"UCTSummaryCard: Incorrect region requested -- bailing" << std::endl;
534 bool UCTSummaryCard::setRegionData(std::vector<UCTRegion*> inputRegions) {
535 for (
long unsigned int i = 0;
i < inputRegions.size();
i++) {
543 edm::LogInfo(
"L1TCaloSummary") <<
"UCTSummaryCard: result = " << cardSummary << std::endl;
Sin< T >::type sin(const T &t)
ALPAKA_FN_ACC int side(int ieta, int iphi)
Log< level::Error, false > LogError
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e g
Cos< T >::type cos(const T &t)
void print(TMatrixD &m, const char *label=nullptr, bool mathematicaFormat=false)
Abs< T >::type abs(const T &t)
Log< level::Info, false > LogInfo
jetInfo getRegion(GCTsupertower_t temp[nSTEta][nSTPhi], float TTseedThreshold)