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TrackletCalculator.cc
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10 
13 
14 using namespace std;
15 using namespace trklet;
16 
17 TrackletCalculator::TrackletCalculator(string name, Settings const& settings, Globals* globals)
18  : TrackletCalculatorBase(name, settings, globals) {
19  for (unsigned int ilayer = 0; ilayer < N_LAYER; ilayer++) {
20  vector<TrackletProjectionsMemory*> tmp(settings.nallstubs(ilayer), nullptr);
21  trackletprojlayers_.push_back(tmp);
22  }
23 
24  for (unsigned int idisk = 0; idisk < N_DISK; idisk++) {
25  vector<TrackletProjectionsMemory*> tmp(settings.nallstubs(idisk + N_LAYER), nullptr);
26  trackletprojdisks_.push_back(tmp);
27  }
28 
30 
31  // set TC index
32  iTC_ = name_[7] - 'A';
33 
34  TCIndex_ = (iSeed_ << 4) + iTC_;
35  assert(TCIndex_ >= 0 && TCIndex_ <= (int)settings_.ntrackletmax());
36 
38  double phicritFactor =
40  if (std::abs(phicritFactor - 2.) > 0.25)
41  edm::LogPrint("Tracklet")
42  << "TrackletCalculator::TrackletCalculator phicrit approximation may be invalid! Please check.";
43  }
44 
45  // write the drinv and invt inverse tables
47  void (*writeLUT)(const VarInv&, const string&) = nullptr;
48  if (settings.writeInvTable()) { // Verilog version
49  writeLUT = [](const VarInv& x, const string& basename) -> void {
50  ofstream fs(basename + ".tab");
51  return x.writeLUT(fs, VarBase::verilog);
52  };
53  } else { // HLS version
54  writeLUT = [](const VarInv& x, const string& basename) -> void {
55  ofstream fs(basename + ".tab");
56  return x.writeLUT(fs, VarBase::hls);
57  };
58  }
59  writeInvTable(writeLUT);
60  }
61 
62  // write the firmware design for the calculation of the tracklet parameters
63  // and projections
64  if ((settings_.writeVerilog() || settings_.writeHLS()) && iTC_ == 0) {
65  void (*writeDesign)(const vector<VarBase*>&, const string&) = nullptr;
66  if (settings.writeVerilog()) { // Verilog version
67  writeDesign = [](const vector<VarBase*>& v, const string& basename) -> void {
68  ofstream fs(basename + ".v");
69  return VarBase::verilog_print(v, fs);
70  };
71  } else { // HLS version
72  writeDesign = [](const vector<VarBase*>& v, const string& basename) -> void {
73  ofstream fs(basename + ".cpp");
74  return VarBase::hls_print(v, fs);
75  };
76  }
77  writeFirmwareDesign(writeDesign);
78  }
79 }
80 
82  outputProj = dynamic_cast<TrackletProjectionsMemory*>(memory);
83  assert(outputProj != nullptr);
84 }
85 
87  if (settings_.writetrace()) {
88  edm::LogVerbatim("Tracklet") << "In " << name_ << " adding output to " << memory->getName() << " to output "
89  << output;
90  }
91  if (output == "trackpar") {
92  auto* tmp = dynamic_cast<TrackletParametersMemory*>(memory);
93  assert(tmp != nullptr);
95  return;
96  }
97 
98  if (output.substr(0, 7) == "projout") {
99  //output is on the form 'projoutL2PHIC' or 'projoutD3PHIB'
100  auto* tmp = dynamic_cast<TrackletProjectionsMemory*>(memory);
101  assert(tmp != nullptr);
102 
103  unsigned int layerdisk = output[8] - '1'; //layer or disk counting from 0
104  unsigned int phiregion = output[12] - 'A'; //phiregion counting from 0
105 
106  if (output[7] == 'L') {
107  assert(layerdisk < N_LAYER);
108  assert(phiregion < trackletprojlayers_[layerdisk].size());
109  //check that phiregion not already initialized
110  assert(trackletprojlayers_[layerdisk][phiregion] == nullptr);
111  trackletprojlayers_[layerdisk][phiregion] = tmp;
112  return;
113  }
114 
115  if (output[7] == 'D') {
116  assert(layerdisk < N_DISK);
117  assert(phiregion < trackletprojdisks_[layerdisk].size());
118  //check that phiregion not already initialized
119  assert(trackletprojdisks_[layerdisk][phiregion] == nullptr);
120  trackletprojdisks_[layerdisk][phiregion] = tmp;
121  return;
122  }
123  }
124 
125  throw cms::Exception("BadConfig") << __FILE__ << " " << __LINE__ << " Could not find output : " << output;
126 }
127 
129  if (settings_.writetrace()) {
130  edm::LogVerbatim("Tracklet") << "In " << name_ << " adding input from " << memory->getName() << " to input "
131  << input;
132  }
133  if (input == "innerallstubin") {
134  auto* tmp = dynamic_cast<AllStubsMemory*>(memory);
135  assert(tmp != nullptr);
136  innerallstubs_.push_back(tmp);
137  return;
138  }
139  if (input == "outerallstubin") {
140  auto* tmp = dynamic_cast<AllStubsMemory*>(memory);
141  assert(tmp != nullptr);
142  outerallstubs_.push_back(tmp);
143  return;
144  }
145  if (input.substr(0, 8) == "stubpair") {
146  auto* tmp = dynamic_cast<StubPairsMemory*>(memory);
147  assert(tmp != nullptr);
148  stubpairs_.push_back(tmp);
149  return;
150  }
151  throw cms::Exception("BadConfig") << __FILE__ << " " << __LINE__ << " Could not find intput : " << input;
152 }
153 
154 void TrackletCalculator::execute(unsigned int iSector, double phimin, double phimax) {
155  unsigned int countall = 0;
156  unsigned int countsel = 0;
157 
158  phimin_ = phimin;
159  phimax_ = phimax;
160  iSector_ = iSector;
161 
162  //Helpfull to have for debugging the HLS code - will keep here for now.
163  //bool print = (iSector == 3) && (getName() == "TC_L1L2G");
164  //print = false;
165 
166  for (auto& stubpair : stubpairs_) {
168  edm::LogVerbatim("Tracklet") << "Will break on too many tracklets in " << getName();
169  break;
170  }
171  for (unsigned int i = 0; i < stubpair->nStubPairs(); i++) {
172  countall++;
173  const Stub* innerFPGAStub = stubpair->getVMStub1(i).stub();
174  const L1TStub* innerStub = innerFPGAStub->l1tstub();
175 
176  const Stub* outerFPGAStub = stubpair->getVMStub2(i).stub();
177  const L1TStub* outerStub = outerFPGAStub->l1tstub();
178 
179  if (settings_.debugTracklet()) {
180  edm::LogVerbatim("Tracklet") << "TrackletCalculator execute " << getName() << "[" << iSector << "]";
181  }
182 
183  if (innerFPGAStub->layerdisk() < N_LAYER && (getName() != "TC_D1L2A" && getName() != "TC_D1L2B")) {
184  if (outerFPGAStub->layerdisk() >= N_LAYER) {
185  //overlap seeding
186  bool accept = overlapSeeding(outerFPGAStub, outerStub, innerFPGAStub, innerStub);
187  if (accept)
188  countsel++;
189  } else {
190  //barrel+barrel seeding
191  bool accept = barrelSeeding(innerFPGAStub, innerStub, outerFPGAStub, outerStub);
192  if (accept)
193  countsel++;
194  }
195  } else {
196  if (outerFPGAStub->layerdisk() >= N_LAYER) {
197  //disk+disk seeding
198  bool accept = diskSeeding(innerFPGAStub, innerStub, outerFPGAStub, outerStub);
199  if (accept)
200  countsel++;
201  } else if (innerFPGAStub->layerdisk() >= N_LAYER) {
202  //layer+disk seeding
203  bool accept = overlapSeeding(innerFPGAStub, innerStub, outerFPGAStub, outerStub);
204  if (accept)
205  countsel++;
206  } else {
207  throw cms::Exception("LogicError") << __FILE__ << " " << __LINE__ << " invalid seeding";
208  }
209  }
210 
212  edm::LogVerbatim("Tracklet") << "Will break on number of tracklets in " << getName();
213  break;
214  }
215 
216  if (countall >= settings_.maxStep("TC")) {
217  if (settings_.debugTracklet())
218  edm::LogVerbatim("Tracklet") << "Will break on MAXTC 1";
219  break;
220  }
221  if (settings_.debugTracklet()) {
222  edm::LogVerbatim("Tracklet") << "TrackletCalculator execute done";
223  }
224  }
225  if (countall >= settings_.maxStep("TC")) {
226  if (settings_.debugTracklet())
227  edm::LogVerbatim("Tracklet") << "Will break on MAXTC 2";
228  break;
229  }
230  }
231 
232  if (settings_.writeMonitorData("TC")) {
233  globals_->ofstream("trackletcalculator.txt") << getName() << " " << countall << " " << countsel << endl;
234  }
235 }
236 
237 void TrackletCalculator::writeInvTable(void (*writeLUT)(const VarInv&, const string&)) {
238  switch (iSeed_) {
239  case 0: // L1L2
240  writeLUT(globals_->ITC_L1L2()->drinv, settings_.tablePath() + "TC_L1L2_drinv");
241  writeLUT(globals_->ITC_L1L2()->invt, settings_.tablePath() + "TC_L1L2_invt");
242  break;
243  case 1: // L2L3
244  writeLUT(globals_->ITC_L2L3()->drinv, settings_.tablePath() + "TC_L2L3_drinv");
245  writeLUT(globals_->ITC_L2L3()->invt, settings_.tablePath() + "TC_L2L3_invt");
246  break;
247  case 2: // L3L4
248  writeLUT(globals_->ITC_L3L4()->drinv, settings_.tablePath() + "TC_L3L4_drinv");
249  writeLUT(globals_->ITC_L3L4()->invt, settings_.tablePath() + "TC_L3L4_invt");
250  break;
251  case 3: // L5L6
252  writeLUT(globals_->ITC_L5L6()->drinv, settings_.tablePath() + "TC_L5L6_drinv");
253  writeLUT(globals_->ITC_L5L6()->invt, settings_.tablePath() + "TC_L5L6_invt");
254  break;
255  case 4: // D1D2
256  writeLUT(globals_->ITC_F1F2()->drinv, settings_.tablePath() + "TC_F1F2_drinv");
257  writeLUT(globals_->ITC_F1F2()->invt, settings_.tablePath() + "TC_F1F2_invt");
258  writeLUT(globals_->ITC_B1B2()->drinv, settings_.tablePath() + "TC_B1B2_drinv");
259  writeLUT(globals_->ITC_B1B2()->invt, settings_.tablePath() + "TC_B1B2_invt");
260  break;
261  case 5: // D3D4
262  writeLUT(globals_->ITC_F3F4()->drinv, settings_.tablePath() + "TC_F3F4_drinv");
263  writeLUT(globals_->ITC_F3F4()->invt, settings_.tablePath() + "TC_F3F4_invt");
264  writeLUT(globals_->ITC_B3B4()->drinv, settings_.tablePath() + "TC_B3B4_drinv");
265  writeLUT(globals_->ITC_B3B4()->invt, settings_.tablePath() + "TC_B3B4_invt");
266  break;
267  case 6: // L1D1
268  writeLUT(globals_->ITC_L1F1()->drinv, settings_.tablePath() + "TC_L1F1_drinv");
269  writeLUT(globals_->ITC_L1F1()->invt, settings_.tablePath() + "TC_L1F1_invt");
270  writeLUT(globals_->ITC_L1B1()->drinv, settings_.tablePath() + "TC_L1B1_drinv");
271  writeLUT(globals_->ITC_L1B1()->invt, settings_.tablePath() + "TC_L1B1_invt");
272  break;
273  case 7: // L2D1
274  writeLUT(globals_->ITC_L2F1()->drinv, settings_.tablePath() + "TC_L2F1_drinv");
275  writeLUT(globals_->ITC_L2F1()->invt, settings_.tablePath() + "TC_L2F1_invt");
276  writeLUT(globals_->ITC_L2B1()->drinv, settings_.tablePath() + "TC_L2B1_drinv");
277  writeLUT(globals_->ITC_L2B1()->invt, settings_.tablePath() + "TC_L2B1_invt");
278  break;
279  }
280 }
281 
282 void TrackletCalculator::writeFirmwareDesign(void (*writeDesign)(const vector<VarBase*>&, const string&)) {
283  switch (iSeed_) {
284  case 0: // L1L2
285  {
286  const vector<VarBase*> v = {&globals_->ITC_L1L2()->rinv_final, &globals_->ITC_L1L2()->phi0_final,
299  writeDesign(v, "TC_L1L2");
300  } break;
301  case 1: // L2L3
302  {
303  const vector<VarBase*> v = {&globals_->ITC_L2L3()->rinv_final, &globals_->ITC_L2L3()->phi0_final,
316  writeDesign(v, "TC_L2L3");
317  } break;
318  case 2: // L3L4
319  {
320  const vector<VarBase*> v = {&globals_->ITC_L3L4()->rinv_final, &globals_->ITC_L3L4()->phi0_final,
333  writeDesign(v, "TC_L3L4");
334  } break;
335  case 3: // L5L6
336  {
337  const vector<VarBase*> v = {&globals_->ITC_L5L6()->rinv_final, &globals_->ITC_L5L6()->phi0_final,
350  writeDesign(v, "TC_L5L6");
351  } break;
352  case 4: // D1D2
353  {
354  const vector<VarBase*> v = {&globals_->ITC_F1F2()->rinv_final, &globals_->ITC_F1F2()->phi0_final,
364  writeDesign(v, "TC_F1F2");
365  }
366  {
367  const vector<VarBase*> v = {&globals_->ITC_B1B2()->rinv_final, &globals_->ITC_B1B2()->phi0_final,
377  writeDesign(v, "TC_B1B2");
378  }
379  break;
380  case 5: // D3D4
381  {
382  const vector<VarBase*> v = {&globals_->ITC_F3F4()->rinv_final, &globals_->ITC_F3F4()->phi0_final,
392  writeDesign(v, "TC_F3F4");
393  }
394  {
395  const vector<VarBase*> v = {&globals_->ITC_B3B4()->rinv_final, &globals_->ITC_B3B4()->phi0_final,
405  writeDesign(v, "TC_B3B4");
406  }
407  break;
408  case 6: // L1D1
409  {
410  const vector<VarBase*> v = {&globals_->ITC_L1F1()->rinv_final, &globals_->ITC_L1F1()->phi0_final,
421  writeDesign(v, "TC_L1F1");
422  }
423  {
424  const vector<VarBase*> v = {&globals_->ITC_L1B1()->rinv_final, &globals_->ITC_L1B1()->phi0_final,
435  writeDesign(v, "TC_L1B1");
436  }
437  break;
438  case 7: // L2D1
439  {
440  const vector<VarBase*> v = {&globals_->ITC_L2F1()->rinv_final, &globals_->ITC_L2F1()->phi0_final,
451  writeDesign(v, "TC_L2F1");
452  }
453  {
454  const vector<VarBase*> v = {&globals_->ITC_L2B1()->rinv_final, &globals_->ITC_L2B1()->phi0_final,
465  writeDesign(v, "TC_L2B1");
466  }
467  break;
468  }
469 }
size
Write out results.
Log< level::Info, true > LogVerbatim
static void verilog_print(const std::vector< VarBase *> &v, std::ofstream &fs)
Definition: imath.h:275
static void hls_print(const std::vector< VarBase *> &v, std::ofstream &fs)
Definition: imath.h:276
constexpr int N_DISK
Definition: Settings.h:22
bool writeHLS() const
Definition: Settings.h:196
unsigned int maxStep(std::string module) const
Definition: Settings.h:116
bool diskSeeding(const Stub *innerFPGAStub, const L1TStub *innerStub, const Stub *outerFPGAStub, const L1TStub *outerStub)
bool writeTable() const
Definition: Settings.h:189
std::string name_
Definition: ProcessBase.h:38
IMATH_TrackletCalculator * ITC_L2L3()
Definition: Globals.h:49
void initLayerDisksandISeed(unsigned int &layerdisk1, unsigned int &layerdisk2, unsigned int &iSeed)
Definition: ProcessBase.cc:63
Settings const & settings_
Definition: ProcessBase.h:40
bool writeVerilog() const
Definition: Settings.h:195
Globals * globals_
Definition: ProcessBase.h:41
void writeFirmwareDesign(void(*writeDesign)(const std::vector< VarBase *> &, const std::string &))
bool writetrace() const
Definition: Settings.h:183
IMATH_TrackletCalculatorOverlap * ITC_L2B1()
Definition: Globals.h:61
assert(be >=bs)
bool accept(const edm::Event &event, const edm::TriggerResults &triggerTable, const std::string &triggerPath)
Definition: TopDQMHelpers.h:31
IMATH_TrackletCalculatorDisk * ITC_B1B2()
Definition: Globals.h:55
void addOutput(MemoryBase *memory, std::string output) override
static struct trklet::VarBase::Verilog verilog
std::vector< AllStubsMemory * > innerallstubs_
TEMPL(T2) struct Divides void
Definition: Factorize.h:24
static std::string const input
Definition: EdmProvDump.cc:50
bool overlapSeeding(const Stub *innerFPGAStub, const L1TStub *innerStub, const Stub *outerFPGAStub, const L1TStub *outerStub)
IMATH_TrackletCalculatorDisk * ITC_F3F4()
Definition: Globals.h:54
IMATH_TrackletCalculatorOverlap * ITC_L1F1()
Definition: Globals.h:58
void addInput(MemoryBase *memory, std::string input) override
std::string tablePath() const
Definition: Settings.h:193
std::vector< StubPairsMemory * > stubpairs_
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
IMATH_TrackletCalculator * ITC_L1L2()
Definition: Globals.h:48
void addOutputProjection(TrackletProjectionsMemory *&outputProj, MemoryBase *memory)
L1TStub * l1tstub()
Definition: Stub.h:77
TrackletParametersMemory * trackletpars_
bool writeMonitorData(std::string module) const
Definition: Settings.h:109
Log< level::Warning, true > LogPrint
unsigned int layerdisk() const
Definition: Stub.cc:185
double K() const
Definition: imath.h:247
std::vector< std::vector< TrackletProjectionsMemory * > > trackletprojdisks_
unsigned int nallstubs(unsigned int layerdisk) const
Definition: Settings.h:107
bool debugTracklet() const
Definition: Settings.h:182
std::vector< AllStubsMemory * > outerallstubs_
static struct trklet::VarBase::HLS hls
IMATH_TrackletCalculatorDisk * ITC_B3B4()
Definition: Globals.h:56
std::vector< std::vector< TrackletProjectionsMemory * > > trackletprojlayers_
IMATH_TrackletCalculatorDisk * ITC_F1F2()
Definition: Globals.h:53
void execute(unsigned int iSector, double phimin, double phimax)
IMATH_TrackletCalculator * ITC_L5L6()
Definition: Globals.h:51
IMATH_TrackletCalculator * ITC_L3L4()
Definition: Globals.h:50
bool writeHLSInvTable() const
Definition: Settings.h:198
void writeInvTable(void(*writeLUT)(const VarInv &, const std::string &))
IMATH_TrackletCalculatorOverlap * ITC_L1B1()
Definition: Globals.h:59
IMATH_TrackletCalculatorOverlap * ITC_L2F1()
Definition: Globals.h:60
std::ofstream & ofstream(std::string fname)
Definition: Globals.cc:44
float x
unsigned int ntrackletmax() const
Definition: Settings.h:331
bool writeInvTable() const
Definition: Settings.h:197
tmp
align.sh
Definition: createJobs.py:716
bool usephicritapprox() const
Definition: Settings.h:235
std::string const & getName() const
Definition: ProcessBase.h:22
constexpr int N_LAYER
Definition: Settings.h:21
bool barrelSeeding(const Stub *innerFPGAStub, const L1TStub *innerStub, const Stub *outerFPGAStub, const L1TStub *outerStub)
double rcrit() const
Definition: Settings.h:288